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1.

図書

図書
David S. Sholl, Janice A. Steckel
出版情報: Hoboken, N.J. : Wiley, c2009  xii, 238 p. ; 25 cm
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Preface
What Is Density Functional Theory? / 1:
How to Approach This Book / 1.1:
Examples of DFT in Action / 1.2:
Ammonia Synthesis by Heterogeneous Catalysis / 1.2.1:
Embrittlement of Metals by Trace Impurities / 1.2.2:
Materials Properties for Modeling Planetary Formation / 1.2.3:
The Schrödinger Equation / 1.3:
Density Functional Theory-From Wave Functions to Electron Density / 1.4:
Exchange-Correlation Functional / 1.5:
The Quantum Chemistry Tourist / 1.6:
Localized and Spatially Extended Functions / 1.6.1:
Wave-Function-Based Methods / 1.6.2:
Hartree-Fock Method / 1.6.3:
Beyond Hartree-Fock / 1.6.4:
What Can DFT Not Do? / 1.7:
Density Functional Theory in Other Fields / 1.8:
How to Approach This Book (Revisited) / 1.9:
References
Further Reading
DFT Calculations for Simple Solids / 2:
Periodic Structures, Supercells, and Lattice Parameters / 2.1:
Face-Centered Cubic Materials / 2.2:
Hexagonal Close-Packed Materials / 2.3:
Crystal Structure Prediction / 2.4:
Phase Transformations / 2.5:
Exercises
Appendix Calculation Details
Nuts and Bolts of DFT Calculations / 3:
Reciprocal Space and k Points / 3.1:
Plane Waves and the Brillouin Zone / 3.1.1:
Integrals in k Space / 3.1.2:
Choosing k Points in the Brillouin Zone / 3.1.3:
Metals-Special Cases in k Space / 3.1.4:
Summary of k Space / 3.1.5:
Energy Cutoffs / 3.2:
Pseudopotentials / 3.2.1:
Numerical Optimization / 3.3:
Optimization in One Dimension / 3.3.1:
Optimization in More than One Dimension / 3.3.2:
What Do I Really Need to Know about Optimization? / 3.3.3:
DFT Total Energies-An Iterative Optimization Problem / 3.4:
Geometry Optimization / 3.5:
Internal Degrees of Freedom / 3.5.1:
Geometry Optimization with Constrained Atoms / 3.5.2:
Optimizing Supercell Volume and Shape / 3.5.3:
DFT Calculations for Surfaces of Solids / 4:
Importance of Surfaces / 4.1:
Periodic Boundary Conditions and Slab Models / 4.2:
Choosing k Points for Surface Calculations / 4.3:
Classification of Surfaces by Miller Indices / 4.4:
Surface Relaxation / 4.5:
Calculation of Surface Energies / 4.6:
Symmetric and Asymmetric Slab Models / 4.7:
Surface Reconstruction / 4.8:
Absorbates on Surfaces / 4.9:
Accuracy of Adsorption Energies / 4.9.1:
Effects of Surface Coverage / 4.10:
DFT Calculations of Vibrational Frequencies / 5:
Isolated Molecules / 5.1:
Vibrations of a Collection of Atoms / 5.2:
Molecules on Surfaces / 5.3:
Zero-Point Energies / 5.4:
Phonons and Delocalized Modes / 5.5:
Reference
Calculating Rates of Chemical Processes Using Transition State Theory / 6:
One-Dimensional Example / 6.1:
Multidimensional Transition State Theory / 6.2:
Finding Transition States / 6.3:
Elastic Band Method / 6.3.1:
Nudged Elastic Band Method / 6.3.2:
Initializing NEB Calculations / 6.3.3:
Finding the Right Transition States / 6.4:
Connecting Individual Rates to Overall Dynamics / 6.5:
Quantum Effects and Other Complications / 6.6:
High Temperatures/Low Barriers / 6.6.1:
Quantum Tunneling / 6.6.2:
Equilibrium Phase Diagrams from Ab Initio Thermodynamics / 6.6.3:
Stability of Bulk Metal Oxides / 7.1:
Examples Including Disorder-Configurational Entropy / 7.1.1:
Stability of Metal and Metal Oxide Surfaces / 7.2:
Multiple Chemical Potentials and Coupled Chemical Reactions / 7.3:
Electronic Structure and Magnetic Properties / 8:
Electronic Density of States / 8.1:
Local Density of States and Atomic Charges / 8.2:
Magnetism / 8.3:
Ab Initio Molecular Dynamics / 9:
Classical Molecular Dynamics / 9.1:
Molecular Dynamics with Constant Energy / 9.1.1:
Molecular Dynamics in the Canonical Ensemble / 9.1.2:
Practical Aspects of Classical Molecular Dynamics / 9.1.3:
Applications of Ab Initio Molecular Dynamics / 9.2:
Exploring Structurally Complex Materials: Liquids and Amorphous Phases / 9.3.1:
Exploring Complex Energy Surfaces / 9.3.2:
Accuracy and Methods beyond "Standard" Calculations / 10:
How Accurate Are DFT Calculations? / 10.1:
Choosing a Functional / 10.2:
Examples of Physical Accuracy / 10.3:
Benchmark Calculations for Molecular Systems-Energy and Geometry / 10.3.1:
Benchmark Calculations for Molecular Systems-Vibrational Frequencies / 10.3.2:
Crystal Structures and Cohesive Energies / 10.3.3:
Adsorption Energies and Bond Strengths / 10.3.4:
DFT + X Methods for Improved Treatment of Electron Correlation / 10.4:
Dispersion Interactions and DFT-D / 10.4.1:
Self-Interaction Error, Strongly Correlated Electron Systems, and DFT+U / 10.4.2:
Larger System Sizes with Linear Scaling Methods and Classical Force Fields / 10.5:
Conclusion / 10.6:
Index
Preface
What Is Density Functional Theory? / 1:
How to Approach This Book / 1.1:
2.

図書

図書
Stephen Blundell
出版情報: Oxford ; New York : Oxford University Press, 2009  xiv, 151 p. ; 18 cm
シリーズ名: Very short introductions ; 204
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What is superconductivity? / 1:
The discovery of superconductivity / 2:
Expulsion / 3:
Pairing Up / 4:
Vortices and symmetry breaking / 5:
The Woodstock of physics / 6:
What have superconductors ever done for us? / 7:
Further Reading
What is superconductivity? / 1:
The discovery of superconductivity / 2:
Expulsion / 3:
3.

図書

図書
L. Cotarca, H. Eckert
出版情報: Weinheim : Wiley-VCH, c2004  xii, 656 p. ; 25 cm
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Introduction
Classification of Phosgene Organic Reactions Structural Properties of Phosgene and 'Pseudophosgene' Compounds Thermodynamic of Phosgene Reactions Thermal, Chemical (Nucleophilic) and Catalytic Induced Dissociation Phosgenes vs
Phosgene Substitutes Reactivity Phosgenes vs
Phosgene Substitutes Reactions Specific Synthetic Applications of Phosgene vs
Phosgene Substitutes Sources of Phosgene Synthesis of Phosgene Substitutes Toxicity Safety Aspects and Environmental Impact Monitoring of Phosgene and Phosgene Substitutes
Analytical Methods Outlook and Conclusions`
The Increasing Importance of Sensors in Household Appliances Market
Data Home Laundry Appliance Manufacturers - Drivers of Change: Socioeconomics and Enablers Intelligent Combustion Condition
Monitoring for Intelligent Household Appliances Sensor Examples in Small Appliances Infrared Ear Thermometers Sensorics for Detergency
Thin Film Temperature Sensors for the Intelligent Kitchen Reed Switches as Sensors for Household
Applications Gas Sensors for the Domestic Environment UV Sensors - Problems and Domestic
Applications Displacement Sensors in Washing Machines Low Cost Acceleration Sensors in Automatic Washing Machines
Fuzzy and Neurofuzzy Applications in European Washing Machines Cutting-edge Silicon-based Micromachined
Sensors for Next Generation Household Appliances Future Developments, Roadmapping and Energy Smart Buildings - Combination of Sensors with Bus Systems
Smart Homes - A Meeting with the Future Even Now Appendix
Preface
Contradictions / 1:
Phosgenation Reagents / 2:
Evaluation of Phosgenation Reagents / 3:
Phosgenation Reactions / 4:
Topics on Specific Synthetic Applications of Phosgenation Reactions / 5:
Evaluation of Phosgenation Reactions / 6:
Materials and Resources for Phosgenation Reagents / 7:
Monitoring Phosgene and Phosgene Substitutes: Analytical Methods / 8:
Outlook / 9:
Appendix
Index
Introduction
Classification of Phosgene Organic Reactions Structural Properties of Phosgene and 'Pseudophosgene' Compounds Thermodynamic of Phosgene Reactions Thermal, Chemical (Nucleophilic) and Catalytic Induced Dissociation Phosgenes vs
Phosgene Substitutes Reactivity Phosgenes vs
4.

図書

図書
L.G. Wade, Jr
出版情報: Upper Saddle River, N.J. ; Tokyo : Pearson Prentice Hall, c2010  xxviii, 1262, 7, 1, 12 p., [4] p. of plates ; 27 cm
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5.

図書

図書
Sandra Cisneros
出版情報: New York : Vintage Books, 2009  xxvii, 110 p. ; 21 cm
シリーズ名: Vintage contemporaries
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6.

図書

図書
Alison M. Smith ... [et al.]
出版情報: New York, NY : Garland Science, c2010  xv, 664 p. ; 28 cm
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7.

図書

図書
volume editor, Xin-Tao Wu ; with contributions by R.G. Cavell ... [et al.]
出版情報: Berlin : Springer, c2009  xv, 208 p. ; 24 cm
シリーズ名: Structure and bonding ; 133
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A Chemical Approach to the Discovery of Quasicrystals and Their Approximant Crystals / Qisheng Lin ; John D. Corbett
Bonding and Electronic Structure of Phosphides, Arsenides, and Antimonides by X-Ray Photoelectron and Absorption Spectroscopies / Andrew P. Grosvenor ; Ronald G. Cavell ; Arthur Mar
Oxo-Centered Triruthenium-Acetate Cluster Complexes Derived from Axial or Bridging Ligand Substitution / Zhong-Ning Chen ; Feng-Rong Dai
New Progress in Monomeric Phthalocyanine Chemistry: Synthesis, Crystal Structures and Properties / Zhonghai Ni ; Renjie Li ; Jianzhuang Jiang
Controllable Assembly, Structures and Properties of Lanthanide-Transition Metal-Amino Acid Clusters / Sheng-Chang Xiang ; Sheng-Min Hu ; Tian-Lu Sheng ; Ling Chen ; Xin-Tao Wu
Index
A Chemical Approach to the Discovery of Quasicrystals and Their Approximant Crystals / Qisheng Lin ; John D. Corbett
Bonding and Electronic Structure of Phosphides, Arsenides, and Antimonides by X-Ray Photoelectron and Absorption Spectroscopies / Andrew P. Grosvenor ; Ronald G. Cavell ; Arthur Mar
Oxo-Centered Triruthenium-Acetate Cluster Complexes Derived from Axial or Bridging Ligand Substitution / Zhong-Ning Chen ; Feng-Rong Dai
8.

図書

図書
Robert K. Murray ... [et al.]
出版情報: New York : McGraw-Hill Medical, c2009  x, 693 p. ; 28 cm
シリーズ名: A Lange medical book
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Biochemistry and Medicine / 1:
Water & PH / 2:
Amino Acids and Peptides / 3:
Proteins: Determination of Primary Structure / 4:
Proteins: Higher Orders of Structure / 5:
Proteins: Myoglobin and Hemoglobin / 6:
Enzymes: Mechanisms of Action / 7:
Enzymes: Kinetics / 8:
Enzymes: Regulation of Activities / 9:
Bioenergetics: The Role of ATP / 10:
Biologic Oxidation / 11:
The Respiratory Chain & Oxidative Phosphorylation / 12:
Carbohydrates of Physiologic Significance / 13:
lipids of Physiologic Significance / 14:
Overview of Metabolism / 15:
The Citric acid Cycle: The Catabolism of Acetyl-CoA / 16:
Glycolysis and Oxidation of Pyruvate / 17:
Metabolism of Glycogen / 18:
Gluconeogenesis and Control of the Blood Glucose / 19:
The Pentose Phosphate Pathway & other Pathways of Hexose Metabolism / 20:
Biosynthesis of Fatty Acids / 21:
Oxidation of Fatty Acids: Ketogenesis / 22:
Metabolism of Unsaturated Fatty Acids & Eicosanoids / 23:
Metabolism of Acyglycerols and Sphingolipids / 24:
Lipid Transport And Storage / 25:
Cholesterol Synthesis, Transport and Excretion / 26:
Integration of Metabolism- the Provision of Metabolic Fuels / 27:
Biosynthesis of Nutritionally Nonessential Amino Acids / 28:
Catabolism of Proteins & of Amino Acid Nitrogen / 29:
Catabolism of the Carbon Skeletons of Amino Acids / 30:
Conversion of Amino Acids / 31:
Porphyrins & Bile Pigments / 32:
Nucleotides / 33:
Metabolism of Purine & Pyrimidine Nucleotides / 34:
Nucleic Acid Structure and Function / 35:
DNA Organization, Replication and Repair / 36:
RNA Synthesis, Processing and Modifications / 37:
Protein Synthesis and Genetic Code / 38:
Regulation of Gene Expression / 39:
Molecular Genetics, Recombinant DNE and Genomic Technology / 40:
Membranes: Structure and Function / 41:
The Diversity of Endocrine System / 42:
Hormone Action and Signal Transduction / 43:
Nutrition, Digestion and Absorption / 44:
Vitamins and Minerals / 45:
Intracellular Traffic and Sorting of Proteins / 46:
Glycoprotein / 47:
The Extracellular Matrix / 48:
Muscle and the Cytoskeleton / 49:
Plasma Proteins and Immunoglobulins / 50:
Homeostasis and Thrombosis / 51:
The Red and White Blood Cells / 52:
Metabolism of Xenobiotics / 53:
The Human Genome Project / 54:
Biochemistry and Medicine / 1:
Water & PH / 2:
Amino Acids and Peptides / 3:
9.

図書

図書
John McMurry ... [et al.]
出版情報: Upper Saddle River, N.J. : Pearson Prentice Hall, c2010  xxiii, 901, 61 p. ; 28 cm
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10.

図書

図書
edited by Satoshi D. Ohdachi ... [et al.]
出版情報: Kyoto : SHOUKADOH Book Sellers , [Nagoya] : The Mammalogical Society of Japan, c2009  xix, 544 p., [5] p. of plates ; 31 cm
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11.

図書

図書
volume editor, Mir Wais Hosseini ; with contributions by D. Braga ... [et al.]
出版情報: Berlin : Springer, c2009  xi, 165 p. ; 24 cm
シリーズ名: Structure and bonding ; 132
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12.

図書

図書
Stephenie Meyer
出版情報: New York : Megan Tingley Books/Little, Brown, 2006, c2005  498 p. ; 21 cm
シリーズ名: The twilight saga
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13.

図書

図書
George P. Rédei
出版情報: [London] : Springer, c2008  2 v. (2201 p.) ; 27 cm
シリーズ名: Springer reference
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14.

図書

図書
edited by Jan Sedzik, Paolo Riccio
出版情報: New Jersey : World Scientific, c2009  xi, 352 p. ; 24 cm
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Preface
From Kuru to Nucleation, Aggregation, Polymerization and Crystallization in Biology and Medicine / D. Carleton Gajdusek1:
Gels Mimicking Antibodies in Their Selective Recognition of Proteins and Its Potential Use for Protein Crystallization / Jan Sedzik ; Nasim Ghasemzadeh ; Fred Nyberg ; Stellan Hjertén2:
Bioinformatics of Myelin Membrane Proteins / Gunnar von Heijne3:
Biomolecular Mass Spectrometry: Applications to Proteins and Peptides / Leopold L. Ilag ; Gianluca Maddalo4:
Myelin: A One-Dimensional Biological "Crystal" for X-Ray and Neutron Scattering / Hideyo Inouye ; Daniel A. Kirschner5:
Two-Dimensional Crystallization of Biological Macromolecules / Hans Hebert6:
Crystallization of Proteins: Principles and Methods / Lata Govada7:
The Role of Oil in Protein Crystallization / Naomi E. Chayen8:
Introduction to Crystallization of Fine Chemicals and Pharmaceuticals / Ã…ke C. Rasmuson9:
Myelin Basic Protein, A Saucy Molecule With High Responsiveness to the Environment or Just an Unusual Membrane Protein? / Paolo Riccio10:
The Use of a Magnetic Field and Magnetic Force as a Means to Improve the Quality of Protein Crystals / Mitsuo Ataka11:
Interactive Crystallomic / 12:
Virtual Molecule: P0 Myelin Glycoprotein. I. Homology Modeling and Prediction of the Secondary and Tertiary Structure / Jan Pawel Jastrzebski13:
In meso Approaches to Membrane Protein Crystallization / Valentin I. Gordeliy ; Ekaterina S. Moiseeva14:
Amyloid, The Amyloid ?-Peptide and Alzheimer's Disease: Structural Considerations / Lars O. Tjernberg15:
Recent Advances in Structural Basis for Molecular Mimicry in Inflammatory Autoimmune Demyelinating Polyneuropathy / Xin Yang16:
Fresh Water Pearls of Wisdom on Protein Crystallization / 17:
Glossary
Index
Preface
From Kuru to Nucleation, Aggregation, Polymerization and Crystallization in Biology and Medicine / D. Carleton Gajdusek1:
Gels Mimicking Antibodies in Their Selective Recognition of Proteins and Its Potential Use for Protein Crystallization / Jan Sedzik ; Nasim Ghasemzadeh ; Fred Nyberg ; Stellan Hjertén2:
15.

図書

図書
Steffen Staab, Rudi Studer (eds.)
出版情報: Berlin : Springer-Verlag, c2009  xix, 811 p. ; 24 cm
シリーズ名: International handbooks on information systems
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16.

図書

図書
by Nagaru Tanigawa ; [illustrattions by Noizi Ito] ; [translated by Chris Pai]
出版情報: New York : Little, Brown and Co., 2009  202 p., [8] p. of plates ; 22 cm
シリーズ名: Kadokawa sneaker bunko
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17.

図書

図書
James M. Gere, Barry J. Goodno
出版情報: Mason, Ohio : Cengage Learning, c2009  xviii, 1022 p. ; 25 cm
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18.

図書

図書
editors, Robert Lanza ... [et al.]
出版情報: London : Academic Press, 2009  xxix, 650 p. ; 29 cm
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Foreword
Why Stem Cell Research?
A New Path ?
Induced Pluripotent Stem Cells
Embryonic Stem Cells
Versus Adult Stem Cells
'Stemness': Definitions, Criteria and Standards
Introduction to Stem Cells / Part 1:
Present Perspective and Future Challenges / 1:
Embryonic Stem Cells in Perspective / 2:
The Development of Epithelial Stem Cell Concepts / 3:
The Advent of Direct Reprogramming / 4:
Clinical Translation of Stem Cells / 5:
Basic Biology Mechanisms / Part 2:
Molecular Basis of Pluripotency / 6:
Stem Cell Niches / 7:
Mechanisms of Stem Cell Self-Renewal / 8:
Cell Cycle Regulators in Stem Cells / 9:
Epigenetic Mechanisms of Cellular Memory / 10:
Cell Fusion and the Differentiated State / 11:
How Cells Change Their Phenotype / 12:
Tissue and Organ Development / Part 3:
Differentiation in Early Development / 13:
Primordial Germ Cells in Mouse and Human / 14:
Stem Cells in Extraembryonic Lineages / 15:
Amniotic Fluid Derived Pluripotent Cells / 16:
Cord Blood Stem Cells / 17:
Neurogenesis in the Vertebrate Embryo / 18:
The Nervous System / 19:
Neuronal Progenitors in the Adult Brain / 20:
Sensory Epithelium of the Eye and Ear / 21:
Epithelial Skin Stem Cells / 22:
The Ontogeny of the Hematopoietic System / 23:
Hematopoietic Stem Cells / 24:
Red Blood Cells / 25:
Cell Differentiation in the Skeleton / 26:
Vascular Progenitor Cells / 27:
Multipotent Adult Progenitor Cells / 28:
Mesenchymal Stem Cells / 29:
Skeletal Muscle Stem Cells / 30:
Stem Cells and the Regenerating Heart / 31:
Potential of ES Cell Differentiation Culture for Vascular Biology / 32:
Cell Lineages and Stem Cells in the Kidney / 33:
Adult Liver Stem Cells / 34:
Pancreatic Stem Cells / 35:
Stem Cells in the Gastrointestinal Tract / 36:
Stem Cells in the Lung / 37:
Methods / Part 4:
Generation of Induced Pluripotent Stem Cells / 38:
Characteristics and Characterization of Pluripotent Stem Cells / 39:
Isolation and Maintenance of Murine Embryonic Stem Cells / 40:
Isolation, Characterization, and Maintenance of Primate ES Cells / 41:
Approaches for Derivation and Maintenance of Human ES cells: Detailed Procedures and Alternatives / 42:
Derivation and Differentiation of Human EG Cells / 43:
Growth Factors & the Serum-Free Culture of Human Pluripotent Stem Cells / 44:
Feeder-Free Culture / 45:
Genetic Manipulation of Human Embryonic Stem Cells / 46:
Homologous Recombination in Human Embryonic Stem Cells / 47:
Surface Antigen Markers / 48:
Lineage Marking / 49:
Genomic Reprogramming / 50:
Isolation and Characterization of Hematopoietic Stem Cells / 51:
Microarray Analysis of Stem Cells and Differentiation / 52:
Zebrafish and Stem Cell Research / 53:
Applications / Part 5:
Cancer Stem Cells / 54:
Neural Stem Cells: Therapeutic Applications in Neurodegenerative Diseases / 55:
Spinal Cord Injury / 56:
Use of Embryonic Stem Cells to Treat Heart Disease / 57:
Insulin-Producing Cells Derived from Stem Cells: A Potential Treatment for Diabetes / 58:
Burns and Skin Ulcers 978-0-12-370465-8 / 59:
Stem Cells and Heart Disease / 60:
Stem Cells for the Treatment of Muscular Dystropy / 61:
Skin Regeneration / 62:
Orthopaedic Applications of Stem Cells / 63:
Embryonic Stem Cells in Tissue Engineering / 64:
Adult Stem Cells in Tissue Engineering / 65:
Stem Cell Gene Therapy / 66:
Regulation and Ethics / Part 6:
Ethical Considerations / 67:
Religious Considerations / 68:
Regulatory Considerations / 69:
Ití s Not About Curiosity, Ití s About Cures / 70:
Epilogue: Concluding Statement
Foreword
Why Stem Cell Research?
A New Path ?
19.

図書

図書
Michael Lappert ... [et al.]
出版情報: Chichester : Wiley, c2009  xii, 355 p. ; 25 cm
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Biographies
Preface
Introduction / 1:
Scope and Organisation of Subject Matter / 1.1:
Developments and Perspectives / 1.2:
Alkali Metal Amides / 2:
Lithium Amides / 2.1:
Monomeric Lithium Amides / 2.2.1:
Dimeric Lithium Amides / 2.2.3:
Trimeric Lithium Amides / 2.2.4:
Tetrameric Lithium Amides / 2.2.5:
Higher Aggregate Lithium Amides / 2.2.6:
Laddering / 2.2.7:
Heterometallic Derivatives / 2.2.8:
Sodium Amides / 2.3:
Monomeric and Dimeric Sodium Amides / 2.3.1:
Higher Aggregate Sodium Amides / 2.3.3:
Heterometallic Sodium Amides / 2.3.4:
Potassium Amides / 2.4:
Potassium Parent Amides (-NH2 as Ligand) / 2.4.1:
Potassium Primary and Secondary Amides / 2.4.3:
Heterometallic Potassium Amides / 2.4.4:
Rubidium Amides / 2.5:
Caesium Amides / 2.6:
References
Beryllium and the Alkaline Earth Metal Amides / 3:
Beryllium Amides / 3.1:
Magnesium Amides / 3.3:
Monomeric Magnesium Amides / 3.3.1:
Dimeric Magnesium Amides / 3.3.3:
Higher Aggregates and Related Magnesium Amides / 3.3.4:
Heterometallic Magnesium Amides / 3.3.5:
Magnesium Inverse Crown Complexes / 3.3.6:
Magnesium Imides / 3.3.7:
Calcium Amides / 3.4:
Monomeric Calcium Amides / 3.4.1:
Dimeric Calcium Amides and Higher Aggregates / 3.4.3:
Heterometallic Calcium Amide Derivatives / 3.4.4:
Strontium Amides / 3.5:
Monomeric Strontium Amides / 3.5.1:
Higher Aggregate Strontium Amides / 3.5.3:
Barium Amides / 3.6:
Monomeric Barium Amides / 3.6.1:
Dimeric Barium Amides / 3.6.3:
Heterometallic Barium Amides / 3.6.4:
Amides of the Group 3 and Lanthanide Metals / 4:
The Pre-1996 Literature: Anwander's Review / 4.1:
Ln2+III Complexes with N-Hydrocarbyl-Amido Ligands / 4.2.1:
Ln2+III Complexes having Silylamido Ligands / 4.2.3:
Bis(Trimethylsilyl) Amido-Ln2+II Complexes and a Ce2+IV Analogue / 4.2.4:
Ln2+III Complexes having Donor-Functionalised Amido Ligands / 4.2.5:
Ln Amides as Precursors for Ln Coordination or Organometallic Compounds / 4.2.6:
Applications as Materials or Catalysts / 4.2.7:
The Recent (Post-1995) Literature / 4.3:
Ln2+III Complexes with N-Hydrocarbyl Substituted Ligands / 4.3.1:
Ln2+II and Ce2+IV Amides / 4.3.3:
Ln Complexes having Donor-Functionalised Amido Ligands / 4.3.5:
Ln Complexes having 1,4-Disubstituted-1,4-Diazabutadiene Ligands, R2-DAD / 4.3.6:
Amides of the Actinide Metals / 5:
Neutral Amidouranium(IV) and Thorium(IV) Complexes / 5.1:
Hydrocarbylamido-An2+IV Compounds Free of π-Centred Ligands / 5.2.1:
Silylamido-An2+IV Compounds Free of π-Centred Co-ligands / 5.2.3:
An2+IV Amides Containing π-Centred Co-ligands / 5.2.4:
Neutral U2+III Amides / 5.3:
Neutral Mixed Valence (U2+III/U2+IV), U2+II, U2+V and U2+VI Amides / 5.4:
Amidouranates / 5.5:
Amidouranium Tetraphenylborates / 5.6:
Amides of the Transition Metals / 6:
Transition Metal Derivatives of Monodentate Amides / 6.1:
Overview / 6.2.1:
Synthesis / 6.2.2:
Structure and Bonding / 6.2.3:
Parent Amido (-NH2) Derivatives / 6.2.4:
Low-coordinate Transition Metal Amides / 6.2.5:
'Two-sided' Amido Ligands / 6.2.6:
Transition Metal Complexes of Polydentate Amido Ligands / 6.3:
Amido Phosphine Ligands / 6.3.1:
Multidentate Podand Ligands / 6.3.3:
Other Chelating Amido Ligands / 6.4:
Amides of Zinc, Cadmium and Mercury / 7:
Neutral Homoleptic Zinc, Cadmium and Mercury Amides / 7.1:
Ionic Metal Amides / 7.3:
Amidometallates / 7.3.1:
Zincation Mediated by Amidozinc Complexes / 7.3.2:
Other Ionic Group 12 Metal Amido Salts / 7.3.3:
Lewis Base Complexes, Chelated Metal Amides and Heteroleptic Amido Complexes / 7.4:
Amides of the Group 13 Metals / 8:
M-N Bonding (M = Al, Ga, In or Tl) / 8.1:
Multiple Character in M-N (M = Al - Tl) Bonds / 8.1.3:
Aluminium Amides / 8.2:
Aluminium Parent Amides (-NH2 as Ligand) / 8.2.1:
Monomeric Aluminium Amides / 8.2.2:
Dimeric Aluminium Amides / 8.2.3:
Higher Aggregate Aluminium Amides / 8.2.4:
Heterometallic Aluminium Amides / 8.2.5:
Aluminium Imides (Iminoalanes) / 8.2.6:
Aluminium(I) Amides / 8.2.7:
Gallium Amides / 8.3:
Monomeric Gallium Amides / 8.3.1:
Associated Gallium Amides / 8.3.3:
Heterometallic Gallium Amides / 8.3.4:
Iminogallanes (Gallium Imides) / 8.3.5:
Gallium Amides in Low (<+3) Oxidation States / 8.3.6:
Indium Amides / 8.4:
Monomeric Indium(III) Amides / 8.4.1:
Associated Indium Amides / 8.4.3:
Heterometallic Indium Amides / 8.4.4:
Iminoindanes (Indium Imides) / 8.4.5:
Indium Amides in Oxidation States <+3 / 8.4.6:
Thallium Amides / 8.5:
Thallium(I) Amides / 8.5.1:
Thallium(III) Derivatives / 8.5.3:
Thallium Amides in Mixed Oxidation States / 8.5.4:
Subvalent Amides of Silicon and the Group 14 Metals / 8.5.5:
Subvalent Amidosilicon Compounds / 9.1:
Bis(amino)silylenes: Pre-2001 / 9.2.1:
Bis(amino)silylenes: 2001-2004 / 9.2.3:
Bis(amino)silylenes: Post-2004 / 9.2.4:
Amidometal(II) Chemistry [Ge(II), Sn(II), Pb(II)] / 9.3:
Homoleptic Metal(II) Amides: Synthesis, Structures and Physical Properties / 9.3.1:
Protonolyses of Homoleptic Metal(II) Amides / 9.3.3:
Heteroleptic Metal(II) Amides / 9.3.4:
Metathetical Exchange Reactions / 9.3.5:
Reactions with Heterocumulenes / 9.3.6:
Oligomeric Metal(II) Imides / 9.3.7:
Metal(II) Amides based on 1,4-Diazabutadienes or a Related Compound / 9.3.8:
Oxidative Addition and Redox Reactions / 9.3.9:
Reactions with Transition Metal Complexes / 9.3.10:
Dimeric Metal(III) Imides: Biradicaloid Compounds / 9.4:
Higher-Nuclearity Group 14 Metalloid Clusters having Amido Ligands / 9.5:
Amides of the Group 15 Metals (As, Sb, Bi) / 10:
Mononuclear Group 15 Metal(III) Amides / 10.1:
Synthesis, Structures and Protolyses of Metal(III) Amides / 10.2.1:
Synthesis, Structures and Reactions of Heteroleptic Mononuclear Bis(amido) Metal(III) Compounds / 10.2.3:
Synthesis, Structures and Reactions of Heteroleptic Mononuclear Amidometal(III) Compounds / 10.2.4:
Bis(amido)Metal(III) Salts / 10.2.5:
Oligomeric Group 15 Metal Imides / 10.3:
Binuclear and Oligomeric Group 15 Metal(III) Imides / 10.3.1:
Binuclear Group 15 Metal(V) Imides / 10.3.2:
Mononuclear Group 15 Metal(V) Amides / 10.4:
Group 15 Metal(III) Macrocyclic Imides / 10.5:
Miscellaneous Group 15 Metal-Nitrogen Compounds / 10.6:
Index
Biographies
Preface
Introduction / 1:
20.

図書

図書
Barnaby Newbolt
出版情報: Oxford : Oxford University Press, 2009  56 p. ; 22 cm
シリーズ名: Oxford bookworms library / series editor, Jennifer Bassett ; Factfiles ; stage 2
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21.

図書

図書
Cees Oomens, Marcel Brekelmans, Frank Baaijens
出版情報: Cambridge : Cambridge University Press, 2009  xiv, 332 p. ; 26 cm
シリーズ名: Cambridge texts in biomedical engineering
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目次情報: 続きを見る
Preface
Vector calculus / 1:
The concepts of force and moment / 2:
Static equilibrium / 3:
The mechanical behaviour of fibres / 4:
Fibres: time dependent behaviour / 5:
Analysis of a one-dimensional continuous medium / 6:
Biological materials and continuum mechanics / 7:
Stress in three-dimensional continuous media / 8:
Motion: the time as an extra dimension / 9:
Deformation and rotation, deformation rate and spin / 10:
Local balance of mass, momentum and energy / 11:
Constitutive modelling of solids and fluids / 12:
Solution strategies for solid and fluid mechanics problems / 13:
Numerical solution of one-dimensional diffusion equation / 14:
The one-dimensional convection-diffusion equation / 15:
The three-dimensional convection-diffusion equation / 16:
Shape functions and numerical integration / 17:
Infinitesimal strain elasticity problems / 18:
References
Index
Preface
Vector calculus / 1:
The concepts of force and moment / 2:
22.

図書

図書
Kim E. Barrett ... [et al.]
出版情報: New York : McGraw-Hill Medical, c2010  ix, 714p. ; 28 cm
シリーズ名: A Lange medical book
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目次情報: 続きを見る
Introduction / I:
The General 7 Cellular Basis of medical physiology / 1:
Physiology of Nerve & Muscle Cells / II:
Excitable Tissue: Nerve / 2:
Excitable Tissue: Muscle / 3:
Synaptic & Junctional Transmission / 4:
Initiation of Impulses in Sense Organs / 5:
Functions of the nervous System / III:
the Autonomic Nervous system / 13:
Central Regulation of Visceral Function / 14:
Neural Basis of Instinctual Behavior & emotions / 15:
Higher Functions of the Nervous System / 16:
Energy Valance, Metabolism & Nutrition / IV:
The Thyroid Gland / 18:
Endocrin Functions of the Pancreas & Regulation of Carbohydrate Metabolism / 19:
The Adrenal Medulla & Adrenal Cortex / 20:
Hormonal Control of Calcium Metabolism & the Physiology of Bone / 21:
The Pituitary Gland / 22:
Gonads: Development & Function of the Reproduction System / 23:
Endocrine Functions of the Kidneys, Heart & Isneal Gland / 24:
Gastrointestinal Function / V:
Digestion & Absorption / 25:
Regulation of Gastrointestinal Function / 26:
Circulating Body Fluids / VI:
Origin of the Heartgbeat & The Electrical Activity of the Heart / 28:
The Heart as a Pump / 29:
Dynamics of GBlood & Lymph Flow / 30:
Cardiovascular Regulatory Mechanisms / 31:
Circulation Through Special Regions / 32:
Cardiosvascular Homeotasis in Health & DiseaseRespiration / 33:
Pulmonary Function / 34:
Gas Transport Between the Lungs & the Tissues / 35:
Regulation of Respiration / 36:
Respiratory Adjustments in Health & Disease / 37:
Formation & Excretion of Urine / VII:
Renal Function & Micurition / 38:
Regulation of Extracellular Fluid Composition & Volume / 39:
References
Appendix
Index
Introduction / I:
The General 7 Cellular Basis of medical physiology / 1:
Physiology of Nerve & Muscle Cells / II:
23.

図書

図書
Robert W. Fox, Philip J. Pritchard, Alan T. McDonald
出版情報: Hoboken, N.J. : John Wiley & Sons, c2010  xiv, 754 p. ; 28 cm
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目次情報: 続きを見る
Introduction / 1:
Fundamental Concepts / 2:
Fluid Statics / 3:
Basic Equations in Integral Form for a Control Volume / 4:
Introduction to Differential Analysis of Fluid Motion / 5:
Incompressible Inviscid Flow / 6:
Dimensional Analysis and Similitude / 7:
Internal Incompressible Viscous Flow / 8:
External Incompressible Viscous Flow / 9:
Open Channel Flow / 10:
Fluid Machinery / 11:
Introduction to Compressible Flow / 12:
Steady Compressible Flow / 13:
Fluid Property Data / Appendix A:
Equations of Motion in Cylindrical Coordinates / Appendix B:
Videos for Fluid Mechanics / Appendix C:
Selected Performance Curves for Pumps and Fans / Appendix D:
Tables for Computation of Compressible Flow / Appendix E:
Analysis of Experimental Uncertainty / Appendix F:
SI Units, Prefixes, and Conversion Factors / Appendix G:
A Brief Review of Microsoft Excel (CD-ROM) / Appendix H:
Answers to Selected Problems
Index
Introduction / 1:
Fundamental Concepts / 2:
Fluid Statics / 3:
24.

図書

図書
editors, Laurie M. Brown, Lillian Hoddeson
出版情報: Cambridge ; New York : Cambridge University Press, 1983  xxii, 412 p. ; 24 cm
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Introduction / Part I:
The birth of elementary particle physics: 1930-1950 / Laurie M. Brown ; Lillian Hoddeson1:
Theoretical Underpinnings / Part II:
The origin of quantum field theory / Paul A. M. Dirac2:
Growing up with field theory: the development of quantum electrodynamics / Victor F. Weisskopf3:
The development of meson physics in Japan / Satio Hayakawa4:
Discoveries of Particles / Part III:
The early stage of cosmic-ray particle research / Dmitry Skobeltzyn5:
Some reminiscences of the early days of cosmic rays / H. Victor Neher6:
Unraveling the particle content of cosmic rays / Carl D. Anderson ; Herbert L. Anderson7:
The intriguing history of the ÃŽ1/4 meson / Gilberto Bermardini8:
Some aspects of French physics in the 1930s / Pierre V. Auger9:
The scientific activities of Leprince-Ringuet and his group on cosmic rays: 1933-1953 / Louis Leprince-Ringuet10:
The decay of 'mesotrons' (1939-1943): experimental particle physics in the age of innocence / Bruno B. Rossi11:
Particle physics in the 1930s: a view from / Berkeley Robert Serber12:
The observation of the leptronic nature of the 'mesotron' / Conversi Pancini ; Piccioni Oreste Piccioni13:
The period that led to the 1946 discovery of the leptronic nature of the 'mesotron' / Marcello Conversi14:
On the discovery of the neutral kaons / Robert W. Thompson15:
Discussion and Commentary / Part IV:
First round-table discussion / Roger H. Stuewer ; Robert W. Seidel ; Donald F. Moyer ; Victor ; F. Weisskopf ; Gilberto Bernardini ; Silvan S. Schweber16:
Second round-table discussion / Spencer R. Weart ; Takehiko Takabayasi ; Charles Weiner ; Robert Serber ; M. G. K. Menon ; Dudley Shapere17:
Some characteristic aspects of early elementary particle theory in Japan / 18:
A New Picture / Part V:
My work in meso physics with nuclear emulsions / Cesare Mansueto ; Giulio Lattes19:
The fine structure of hydrogen / Willis E. Lamb20:
Renmormalization theory of quantum electrodynamics: an individual view / Julian Schwinger21:
Two shakers of physics: memorial lecture for Sin-itiro / Tomonaga Julian Schwinger22:
Particle physics in rapid transition: 1947-1952 / Robert E. Marshak23:
Indices
Introduction / Part I:
The birth of elementary particle physics: 1930-1950 / Laurie M. Brown ; Lillian Hoddeson1:
Theoretical Underpinnings / Part II:
25.

図書

図書
edited by Tom W. Muir, John N. Abelson
出版情報: Amsterdam ; Tokyo : Academic Press, 2009  xliii, 264 p., [8] p. of plates ; 24 cm
シリーズ名: Methods in enzymology / editors in chief, Sidney P. Colowick, Nathan O. Kaplan ; v. 462
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(Tentative)
Protein Engineering with the Traceless Staudinger Ligation / Ronald T. Raines ; Annie Tam1:
Mechanistic studies of RNR using unnatural amino acids and semisynthesis / Joann Stubbe2:
Using Expressed Protein Ligation to Probe the Substrate Specificity of Lantibiotic Synthetases / Wilfred van der Donk ; Xingang Zhang3:
Protein Phosphorylation by Semisynthesis: From Paper to Practice / Phlip A. Cole,Lawrence M. Szewczuk ; Mary Katherine Tarrant4:
Mechanistic studies of semisynthetic ion channels / Francis Valiyaveetil5:
Semi-synthesis of proteins using split inteins / Henning D. Mootz ; Christina Ludwig ; Joachim Zettler ; Daniel Garbe6:
Segmental Isotopic Labeling of Proteins for Nuclear Magnetic Resonance / David Cowburn ; Dongsheng Liu ; Rong Xu7:
Use of intein-mediated protein ligation strategies for the fabrication of functional protein arrays / Shao Q Yao ; Souvik Chattopadhaya ; Farhana B. Abu Bakar8:
Expressed Protein Ligation for Metalloprotein Design and Engineering / Yi Lu ; Kenneth Clark9:
(Tentative)
Protein Engineering with the Traceless Staudinger Ligation / Ronald T. Raines ; Annie Tam1:
Mechanistic studies of RNR using unnatural amino acids and semisynthesis / Joann Stubbe2:
26.

図書

図書
Zerong Wang
出版情報: Hoboken, N.J. : John Wiley & Sons, c2009  3 v. (xlix, 3661 p.) ; 26 cm
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Preface
Acknowledgments
Autobiography
Chemical Abbreviations
Abnormal Claisen Rearrangement / Part 1:
Acetoacetic Ester Condensation / 2:
Acetoacetic Ester Synthesis / 3:
Acyloin Condensation / 4:
Acyloin Rearrangement / 5:
Adkins Catalyst / 6:
Ainley and King Synthesis / 7:
Akabori Amino Acid Reaction / 8:
Albright-Goldman Oxidation / 9:
Alder Ene Reaction / 10:
Alder-Rickert Reaction / 11:
Aldol Reaction and Aldol Condensation / 12:
Algar-Flynn-Oyamada (AFO) Reaction / 13:
Alkene Metathesis / 14:
Allan-Robinson Condensation / 15:
Allylic Rearrangement / 16:
Amadori Rearrangement / 17:
Andrussow Process / 18:
Angeli-Remini Reaction / 19:
ANRORC Rearrangement / 20:
Anschutz Anthracene Synthesis / 21:
Appel Reaction / 22:
Arens-Van Dorp Reaction / 23:
Arndt-Eistert Synthesis / 24:
Asinger Reaction / 25:
Aston-Greenburg Rearrangement / 26:
Atherton-Todd Reaction / 27:
Auwers-Skita Rule / 28:
Aza-Claisen Rearrangement / 29:
Baddeley Isomerization / 30:
Baeyer Diarylmethane Synthesis / 31:
Baeyer-Drewson Reaction / 32:
Baeyer Indole Synthesis / 33:
Baeyer Oxindole Synthesis / 34:
Baeyer Pyridine Synthesis / 35:
Baeyer-Villiger Oxidation / 36:
Bailey Peptide Synthesis / 37:
Bakelite Process / 38:
Baker-Ollis Sydnones Synthesis / 39:
Baker-Venkataraman Rearrangement / 40:
Ball-Goodwin-Morton Oxidation / 41:
Bally-Scholl Reaction / 42:
Balsohn Alkylation / 43:
Balz-Schiemann Reaction / 44:
Bamberger Rearrangement / 45:
Bamford-Stevens Reaction / 46:
Barbier Reaction / 47:
Barbier-Wieland Degradation / 48:
Bardhan Sengupta Synthesis / 49:
Bargellini Condensation / 50:
Bart Reaction / 51:
Bartoli Indole Synthesis / 52:
Barton Decarboxylation / 53:
Barton Deoxygenation / 54:
Barton Reaction / 55:
Barton-Kellogg Olefination / 56:
Barton-Zard Pyrrole Synthesis / 57:
Batcho-Leimgruber Indole Synthesis / 58:
Baudisch Reaction / 59:
Baumann-Fromm Thiophene Synthesis / 60:
Baumgarten ?-Amino Ketone Synthesis / 61:
Baylis-Hillman Reaction / 62:
B´echamp Reduction / 63:
Beckmann Rearrangement and Beckmann Fragmentation / 64:
Bedoukian Halogenation / 65:
B´ehal-Sommelet Rearrangement / 66:
Beirut Reaction / 67:
Bellus-Claisen Rearrangement / 68:
B´enary Reaction / 69:
Benkeser Reduction / 70:
Benzidine Rearrangement / 71:
Benzilic Acid Rearrangement / 72:
Benzoin Condensation / 73:
Bergius Process / 74:
Bergman Cyclization / 75:
Bergmann Degradation / 76:
Bergmann-Stern Azlactone Synthesis / 77:
Bergmann-Zervas Peptide Synthesis / 78:
Bernthsen Reaction / 79:
Berti Olefination / 80:
Bertram-Walbaum Reaction / 81:
Betti Reaction / 82:
Biginelli Reaction / 83:
Birch Reduction / 84:
Birckenbach-Goubeau Halogenation / 85:
Birnbaum-Simonini Reaction / 86:
Bischler Reaction / 87:
Bischler-Napieralski Isoquinoline Synthesis / 88:
Black Rearrangement / 89:
Blaise Ketone Synthesis / 90:
Blaise Reaction / 91:
Blanc Chloromethylation / 92:
Blanc Rule / 93:
Blomquist Cyclic Ketone Synthesis / 94:
Bobbitt Reaction / 95:
Bodroux Amide Synthesis / 96:
Bodroux-Chichibabin Reaction / 97:
B¿oeseken Oxidation / 98:
Bogert-Cook Synthesis / 99:
Bohn-Schmidt Reaction / 100:
Boord Olefin Synthesis / 101:
Borsche-Berkhout Reaction / 102:
Borsche-Drechsel Reaction / 103:
Borsche-Koelsch Cinnoline Synthesis / 104:
Bougault Reaction / 105:
Boulton-Katritzky Rearrangement / 106:
Bourgel Alkyne Synthesis / 107:
Bouveault Aldehyde Synthesis / 108:
Bouveault-Blanc Reduction / 109:
Boyland-Sims Oxidation / 110:
Bradsher Cyclization / 111:
Bradsher Cycloaddition / 112:
Bradsher Pyridinium Salt Synthesis / 113:
Brandi-Guarna Reaction / 114:
Breckpot ?-Lactam Synthesis / 115:
Bredt's Rule / 116:
Brook Rearrangement / 117:
Brown Hydroboration / 118:
Bruckner Isoquinoline Synthesis / 119:
Bucherer Carbazole Synthesis / 120:
Bucherer Reaction / 121:
Bucherer-Bergs Hydantoin Synthesis / 122:
B¿uchner Ring Expansion / 123:
B¿uchner-Curtius-Schlotterbeck Reaction / 124:
Buchwald Indoline Synthesis / 125:
Buchwald-Hartwig Amination / 126:
Burton Trifluoromethylation / 127:
Cadogan-Sundberg Indole Synthesis / 128:
Caglioti Reaction / 129:
Cahours-Hofmann Reaction / 130:
Camps Reaction / 131:
Cannizzaro Reaction / 132:
Carboni-Lindsey Reaction / 133:
Carroll Rearrangement / 134:
Castro Indole Synthesis / 135:
Castro-Stephens Coupling / 136:
Chan Rearrangement / 137:
Chapman Rearrangement / 138:
Chichibabin Amination / 139:
Chichibabin Pyridine Synthesis / 140:
Chretien-Longi Reaction / 141:
Chugaev Reaction / 142:
Ciamician-Dennstedt Reaction / 143:
Claisen Rearrangement / 144:
Claisen-Schmidt Condensation / 145:
Clauson-Kaas Reaction / 146:
Clay-Kinnear-Perren Condensation / 147:
Clayton-Jensen Chlorophosphonation / 148:
Clemmensen Reduction / 149:
Cohen Reductive Lithiation / 150:
Combes Quinoline Synthesis / 151:
Conrad-Limpach Quinoline Synthesis / 152:
Cope Elimination / 153:
Cope Rearrangement / 154:
Corey-Bakshi-Shibata Reduction / 155:
Corey-Chaykovsky Epoxidation / 156:
Corey-Fuchs Reaction / 157:
Corey-Gilman-Ganem Oxidation / 158:
Corey-Kim Oxidation / 159:
Corey-Kwiatkowski Reaction / 160:
Corey-Link Reaction / 161:
Corey-Schmidt Oxidation / 162:
Corey-Suggs Oxidation / 163:
Corey-Winter Olefination / 164:
Cornforth Rearrangement / 165:
Craig 2-Bromo-Pyridine Synthesis / 166:
Cram's Rule / 167:
Criegee Glycol Oxidation / 168:
Criegee Ozonolysis / 169:
Criegee Rearrangement / 170:
Crum-Brown-Gibson Substitution Rule / 171:
Curtius Rearrangement / 172:
[m+n(+. . . )] Cycloaddition / 173:
[2+2] Cycloaddition / 174:
Dakin Reaction / 175:
Dakin-West Reaction / 176:
Danheiser Annulation / 177:
Darzens Condensation / 178:
Darzens Halogenation / 179:
Darzens Olefin Acylation / 180:
Darzens-Nenitzescu Reaction / 181:
Davidson Oxazole Cyclization / 182:
de Mayo Reaction / 183:
Decker-Becker Secondary Amine Synthesis / 184:
Del´epine Reaction / 185:
Demjanov Rearrangement / 186:
Dess-Martin Periodinane Oxidation / 187:
D-Homo Rearrangement / 188:
Dieckmann Condensation / 189:
Diels-Alder Reaction / 190:
Diels-Reese Reaction / 191:
Dienol-Benzene Rearrangement / 192:
Dienone-Phenol Rearrangement / 193:
Dimroth Rearrangement / 194:
Di-Π-Methane Rearrangement / 195:
1,3-Dipolar Cycloaddition / 196:
Doebner Reaction / 197:
Doebner-Miller Reaction / 198:
Doering-Moore-Skattebøl Reaction / 199:
Dotz Benzannulation / 200:
Dowd-Beckwith Ring Expansion / 201:
Duff Reaction / 202:
Dutt-Wormall Reaction / 203:
Eastwood Olefination / 204:
Eder Reaction / 205:
Edman Degradation / 206:
Eglinton Coupling / 207:
Ehrlich-Sachs Reaction / 208:
Einhorn Acylation / 209:
Einhorn-Brunner Reaction / 210:
Eisleb Alkylation / 211:
Elbs Persulfate Oxidation / 212:
Elbs Reaction / 213:
Eltekoff Hydrolysis / 214:
Emde Degradation / 215:
Emmert Reaction / 216:
Erlenmeyer-plochl Azlactone Synthesis / 217:
Eschenmoser Coupling / 218:
Eschenmoser Fragmentation / 219:
Eschweiler-Clarke Methylation / 220:
Ester Pyrolysis / 221:
E´ tard Reaction / 222:
Evans Aldol Reaction / 223:
Favorskii Rearrangement / 224:
Favorskii-Babayan Reaction / 225:
Feist-Benary Reaction / 226:
Fenton Reaction / 227:
Ferrier Reaction / 228:
Ferrier-II Rearrangement / 229:
F´etizon Oxidation / 230:
Finkelstein Reaction / 231:
Fischer Carbene Complexes / 232:
Fischer Indole Synthesis / 233:
Fischer Oxazole Synthesis / 234:
Fischer Phenylhydrazine Synthesis / 235:
Fischer Phenylhydrazone and Osazone Synthesis / 236:
Fischer-Helferich Glycosylation / 237:
Fischer-Hepp Rearrangement / 238:
Fischer-Speier Esterification / 239:
Fischer-Tropsch Synthesis / 240:
Fleming-Tamao Oxidation / 241:
Flood Reaction / 242:
Forster Reaction / 243:
Franchimont Condensation / 244:
Frankland Reaction / 245:
Fr´ater-Seebach Alkylation / 246:
Freund Reaction / 247:
Friedel-Crafts Acylation / 248:
Friedel-Crafts Alkylation / 249:
Friedl¿ander Condensation / 250:
Fries Rearrangement / 251:
Fritsch-Buttenberg-Wiechell Rearrangement / 252:
Fujimoto-Belleau Reaction / 253:
Fukuyama Amine Synthesis / 254:
Fukuyama Indole Synthesis / 255:
F¿urstner Indole Synthesis / 256:
Gabriel Primary Amine Synthesis / 257:
Gabriel Reaction / 258:
Gabriel-Colman Rearrangement / 259:
Garner Aldehyde / 260:
Gassman Indole Synthesis / 261:
Gassman Oxindole Synthesis / 262:
Gassman Reaction / 263:
Gattermann Aldehyde Synthesis / 264:
Gattermann Reaction / 265:
Gattermann-Koch Formylation / 266:
Gewald Reaction / 267:
Ghosez Cyclization / 268:
Ghosez Keteniminium-Olefin Cyclization / 269:
Gibbs-Wohl Naphthalene Oxidation / 270:
Gilman-Cason Ketone Synthesis / 271:
Gilman-Speeter Reaction / 272:
Gomberg Free Radical Reaction / 273:
Gomberg-Bachmann Pinacol Synthesis / 274:
Gomberg-Bachmann Reaction / 275:
Gould-Jacobs Reaction / 276:
Graebe-Ullmann Synthesis / 277:
Gr¿anacher Synthesis / 278:
Gribble Reductive Amination / 279:
Griess Diazotization / 280:
Grignard Degradation / 281:
Grignard Reaction / 282:
Grob Fragmentation / 283:
Grosheintz-Fischer-Reissert Aldehyde Synthesis / 284:
Grundmann Aldehyde Synthesis / 285:
Gryszkiewicz-Trochimowski and Mccombie Fluorination / 286:
Guareschi Reaction / 287:
Guerbet Condensation / 288:
Gutknecht Condensation / 289:
Hajos-Parrish-Eder-Sauer-Wiechert Reaction / Part 2:
Haller-Bauer Cleavage / 291:
Hammick Reaction / 292:
Hansley-Prelog Acyloin Condensation / 293:
Hantzsch Dihydropyridine Synthesis / 294:
Hantzsch Pyrrole Synthesis / 295:
Hantzsch Thiazole Synthesis / 296:
Hass-Bender Oxidation / 297:
Haworth Methylation / 298:
Haworth Synthesis / 299:
Hayashi Rearrangement / 300:
Heck Reaction / 301:
Hegedus Indole Synthesis / 302:
Helferich Condensation / 303:
Helferich Glycosylation / 304:
Hell-Volhard-Zelinsky Reaction / 305:
Hemetsberger Indole Synthesis / 306:
Henkel Reaction / 307:
Henry Reaction / 308:
Herbst-Engel Transamination / 309:
Heron Rearrangement / 310:
Herz Reaction / 311:
Heumann Indigo Process / 312:
Heyns Rearrangement / 313:
Hilbert-Johnson Reaction / 314:
Hinsberg Oxindole Synthesis / 315:
Hinsberg Reaction / 316:
Hinsberg Sulfone Synthesis / 317:
Hinsberg Thiophene Synthesis / 318:
Hiyama Coupling / 319:
Hoch-Campbell Reaction / 320:
Hock Rearrangement / 321:
Hofer-Moest Reaction / 322:
Hofmann Degradation / 323:
Hofmann Elimination / 324:
Hofmann Isonitrile Synthesis / 325:
Hofmann Rule / 326:
Hofmann-Loffler-Freytag Reaction / 327:
Hofmann-Martius Rearrangement / 328:
Hofmann-Sand Reaction / 329:
Hooker Oxidation / 330:
Horenstein-P¿ahlicke Reaction / 331:
Horner-Wadsworth-Emmons Olefination / 332:
Hosomi-Sakurai Allylation / 333:
Houben-Hoesch Reaction / 334:
Houdry Cracking Process / 335:
Huisgen Pyrrole Synthesis / 336:
Hunsdiecker Condensation / 337:
Hunsdiecker Reaction / 338:
Hydroformylation / 339:
Iodolactonization / 340:
Irvine-Purdie Methylation / 341:
Jacobsen Rearrangement / 342:
Jacobsen-Katsuki Epoxidation / 343:
Janovsky Reaction / 344:
Japp-Klingemann Fischer Indole Synthesis / 345:
Japp-Klingemann Reaction / 346:
Japp-Maitland Condensation / 347:
Johnson Orthoester Claisen Rearrangement / 348:
Jones Oxidation / 349:
Jourdan-Ullmann Reaction / 350:
Julia Olefination / 351:
Juli´a-Colonna Asymmetric Epoxidation / 352:
Kabachnik-Fields Reaction / 353:
Kahne Glycosylation / 354:
Keck Allylation / 355:
Keck Macrolactonization / 356:
Kemp Elimination / 357:
Kennedy Oxidative Cyclization / 358:
Kiliani-Fischer Cyanohydrin Synthesis / 359:
Kishner Decomposition / 360:
Knoevenagel Condensation / 361:
Knoevenagel Diazotization Method / 362:
Knorr Pyrazole Synthesis / 363:
Knorr Pyrrole Synthesis / 364:
Knorr Quinoline Synthesis / 365:
Koch-Haaf Carboxylation / 366:
Kochi Reaction / 367:
Koenigs-Knorr Reaction / 368:
Kolbe Electrolysis / 369:
Kolbe Nitrile Synthesis / 370:
Kolbe-Schmidt Reaction / 371:
Kondrat'eva Pyridine Synthesis / 372:
Kornblum Oxidation / 373:
Kornblum-Delamare Rearrangement / 374:
Kostanecki-Robinson Reaction / 375:
Kowalski Ester Homologation / 376:
Krapcho Decarboxylation / 377:
Kriewitz Condensation / 378:
Kr¿ohnke Pyridine Synthesis / 379:
Kuhn-Roth Oxidation / 380:
Kuhn-Winterstein Reduction / 381:
Kulinkovich Cyclopropanation / 382:
Kutscheroff Acetylene Hydration / 383:
Lander Rearrangement / 384:
Larock Indole Synthesis / 385:
Lawesson's Reagent / 386:
Lebedev Process / 387:
Lehmstedt-Tanasescu Reaction / 388:
Lemieux-Johnson Oxidation / 389:
Leuckart Reaction / 390:
Leuckart Thiophenol Synthesis / 391:
Levinstein Process / 392:
Lieben Iodoform Reaction / 393:
Liebeskind-Srogl Cross-Coupling / 394:
Lindlar Hydrogenation / 395:
Lobry de Bruyn-Alberda van Ekenstein Transformation / 396:
Lombardo Methylenation / 397:
Lossen Rearrangement / 398:
Luche Reaction / 399:
Luche Reduction / 400:
MacDonald-Fischer Degradation / 401:
Madelung Indole Synthesis / 402:
Maillard Reaction / 403:
Maitland-Japp Reaction / 404:
Majetich Annulation / 405:
Malaprade Reaction / 406:
Malonic Ester Synthesis / 407:
Mandelic Acid Synthesis / 408:
Mannich Reaction / 409:
Marckwald Asymmetric Synthesis / 410:
Markownikoff Rule and Anti-Markownikoff Rule / 411:
Martinet Reaction / 412:
Martin's Sulfurane / 413:
Mattox-Kendall Reaction / 414:
McCormack Cycloaddition / 415:
McFadyen-Stevens Reaction / 416:
McLafferty Rearrangement / 417:
McMurry Coupling / 418:
Meerwein Arylation / 419:
Meerwein-Ponndorf-Verley Reduction / 420:
Meerwein's Salt / 421:
Meinwald Rearrangement / 422:
Meisenheimer Complexes / 423:
Meisenheimer Rearrangement / 424:
Menke Nitration / 425:
Menschutkin Reaction / 426:
Mentzer Pyrone Synthesis / 427:
Merrifield Solid-Phase Peptide Synthesis / 428:
Meyer-Hartmann Reaction / 429:
Meyers Aldehyde Synthesis / 430:
Meyer-Schuster Rearrangement / 431:
Michael Addition / 432:
Michaelis-Arbuzov Rearrangement / 433:
Michael-Stetter Reaction / 434:
Miescher Degradation / 435:
Mignonac Reaction / 436:
Milas Hydroxylation / 437:
Mislow-Evans Rearrangement / 438:
Mitsunobu Reaction / 439:
Moffatt-Swern Oxidation / 440:
Moore Cyclization / 441:
Morgan-Walls Cyclization / 442:
Mori-Ban Indole Synthesis / 443:
Morin Rearrangement / 444:
Mosher's Acid / 445:
Moureau-Mignonac Ketimine Synthesis / 446:
Mukaiyama Aldol Reaction / 447:
Mukaiyama-Michael Reaction / 448:
M¿ uller-Cunradi-Pieroh Process / 449:
Myers-Saito Cyclization / 450:
Nagata Reaction / 451:
Nazarov Cyclization / 452:
Neber Rearrangement / 453:
Neber-Bossel Synthesis / 454:
Nef Reaction / 455:
Negishi Cross-Coupling / 456:
Nencki Reaction / 457:
Nenitzescu Synthesis / 458:
Nenitzescu Indole Synthesis / 459:
Newman-Kwart Rearrangement / 460:
Nicholas Reaction / 461:
Niementowski Reaction / 462:
Nierenstein Reaction / 463:
Norrish Type I Reaction / 464:
Norrish Type II Reaction / 465:
Noyori Hydrogenation / 466:
Nozaki-Hiyama-Kishi Reaction / 467:
Nysted Reagent / 468:
Ohle Quinoxaline Synthesis / 469:
Oppenauer Oxidation / 470:
Orton Rearrangement / 471:
Ostromislensky Process / 472:
Overman Rearrangement / 473:
Paal-Knorr Furan Synthesis / 474:
Paal-Knorr Pyrrole Synthesis / 475:
Paneth Technique / 476:
Parham Cyclization / 477:
Parikh-Doering Oxidation / 478:
Passerini Reaction / 479:
Paterno-Buchi Reaction / 480:
Pauson-Khand Reaction / 481:
Payne Rearrangement / 482:
Pearlman's Catalyst / 483:
Pechmann Pyrazole Synthesis / 484:
Pechmann Reaction / 485:
Pellizzari Reaction / 486:
Perkin Reaction / 487:
Perkin Synthesis / 488:
Perkow Reaction / 489:
Petasis-Ferrier Rearrangement / 490:
Peterson Olefination / 491:
Petrenko-Kritschenko Piperidone Synthesis / 492:
Pfau-Plattner Azulene Synthesis / 493:
Pfitzinger Reaction / 494:
Pfitzner-Moffatt Oxidation / 495:
Phillips-Ladenburg Benzimidazole Synthesis / 496:
Photo-Fries Rearrangement / 497:
Pictet-Gams Synthesis / 498:
Pictet-Spengler Reaction / 499:
Piloty-Robinson Pyrrole Synthesis / 500:
Pinacol Coupling Reaction / 501:
Pinacol Rearrangement / 502:
Pinner Condensation / 503:
Pinner Reaction / 504:
Pinner S-Triazine Synthesis / 505:
Piria Reaction / 506:
Plancher Rearrangement / 507:
Polonovski Reaction / 508:
Pomeranz-Fritsch Reaction / 509:
Ponzio Reaction / 510:
Pr´evost Reaction / 511:
Prey Ether Cleavage / 512:
Prilezhaev Reaction / 513:
Prins Reaction / 514:
Pudovik Reaction / 515:
Pummerer Rearrangement / 516:
Quelet Reaction / 517:
Radziszewski Reaction / Part THREE.:
Ramberg-B¿acklund Reaction / 519:
Raney Nickel / 520:
Rauhut-Currier Reaction / 521:
Reed Reaction / 522:
Reformatsky Reaction / 523:
Regitz Diazo Transfer / 524:
Reilly-Rickinbottom Rearrangement / 525:
Reimer-Tiemann Reaction / 526:
Reissert Compound / 527:
Reissert Indole Synthesis / 528:
Reppe Alkyne Cyclotrimerization / 529:
Reppe Carbonylation / 530:
Reppe Cyclization / 531:
Reppe Vinylation / 532:
Retro-Diels-Alder Reaction / 533:
Retro-Ene Reaction / 534:
Retropinacol Rearrangement / 535:
Reverdin Rearrangement / 536:
Riehm Quinoline Synthesis / 537:
Rieke Metal / 538:
Riemenschneider Reaction / 539:
Riley Oxidation / 540:
Ritter Reaction / 541:
Robinson Annulation / 542:
Robinson-Gabriel Oxazole Synthesis / 543:
Robinson-Schopf Condensation / 544:
Rosenmund Reaction / 545:
Rosenmund Reduction / 546:
Rosenmund-von Braun Reaction / 547:
Rothemund Reaction / 548:
Roush Crotylboration / 549:
Rowe Rearrangement / 550:
Rubottom Oxidation / 551:
Ruff Degradation / 552:
Rupe Rearrangement / 553:
Sabatier-Senderens Reduction / 554:
Saegusa Cyclization / 555:
Saegusa Oxidation / 556:
Sandmeyer Isatin Synthesis / 557:
Sandmeyer Reaction / 558:
Sarett Oxidation / 559:
Saytzeff Rule / 560:
Schiff Base / 561:
Schlack-Kumpf Reaction / 562:
Schlotterbeck Reaction / 563:
Schmidlin Ketene Synthesis / 564:
Schmidt Glycosylation / 565:
Schmidt Reaction / 566:
Schmidt-Rutz Reaction / 567:
Schmittel Cyclization / 568:
Scholl Reaction / 569:
Sch¿ollkopf Bis-Lactim Ether Method / 570:
Sch¿ollkopf Oxazole Synthesis / 571:
Sch¿onberg Rearrangement / 572:
Schotten-Baumann Reaction / 573:
Schwartz Reagent / 574:
Screttas Lithiation / 575:
Selenoxide Elimination / 576:
Semmler-Wolff Aromatization / 577:
Serini Reaction / 578:
Seyferth-Gilbert Homologation / 579:
Shapiro Reaction / 580:
Sharpless Aminohydroxylation / 581:
Sharpless Dihydroxylation / 582:
Sharpless Epoxidation / 583:
Shechter-Kaplan Oxidative Nitration / 584:
Shi Epoxidation / 585:
Simmons-Smith Reaction / 586:
Simonini Reaction / 587:
Skraup Reaction / 588:
Smiles Rearrangement / 589:
Sommelet Reaction / 590:
Sommelet-Hauser Rearrangement / 591:
Sonn-Muller Reaction / 592:
Sonogashira Coupling / 593:
Staudinger [2+2] Cycloaddition / 594:
Staudinger Reaction / 595:
Stec Reaction / 596:
Steglich Catalyst / 597:
Steglich Rearrangement / 598:
Stephen Reaction / 599:
Stetter Reaction / 600:
Stevens Rearrangement / 601:
Stieglitz Rearrangement / 602:
Stille Coupling / 603:
Stobbe Condensation / 604:
Stolle-Becker Synthesis / 605:
Stork Reaction / 606:
Strecker Degradation / 607:
Strecker Reaction / 608:
Strecker Synthesis / 609:
Su´arez Cleavage / 610:
Sugasawa Indole Synthesis / 611:
Sugasawa Reaction / 612:
Sundberg Indole Synthesis / 613:
Suzuki Coupling / 614:
Swarts Reaction / 615:
Takai Olefination / 616:
Tebbe Olefination / 617:
ter Meer Reaction / 618:
Thiele-Winter Acetoxylation / 619:
Thorpe-Ziegler Cyclization / 620:
Tiemann Cyanohydrin Amination / 621:
Tiemann Rearrangement / 622:
Tiffeneau-Demjanov Ring Expansion / 623:
Tishchenko Reaction / 624:
Traube Purine Synthesis / 625:
Trofimov Reaction / 626:
Trost Desymmetrization / 627:
Truce-Smiles Rearrangement / 628:
Tscherniac-Einhorn Reaction / 629:
Tsuji-Trost Reaction / 630:
Twitchell Process / 631:
Tyrer Process / 632:
Ueno-Stork Cyclization / 633:
Ugi Reaction / 634:
Ullmann Acridine Synthesis / 635:
Ullmann Coupling / 636:
Ullmann Diaryl Ether Synthesis / 637:
Urech Cyanohydrin Method.Synthesis / 638:
van Slyke Method / 640:
Varrentrapp Reaction / 641:
Victor Meyer Reaction / 642:
Vilsmeier Formylation / 643:
Vinylcyclopropane Rearrangement / 644:
Voigt Reaction / 645:
von Auwers Rearrangement / 646:
von Braun Cyanogen Bromide Reaction / 647:
von Braun Degradation / 648:
von Braun-Rudolf Synthesis / 649:
von Richter Cinnoline Synthesis / 650:
von Richter Reaction / 651:
Vorbr¿uggen Glycosylation / 652:
Wacker Oxidation / 653:
Wagner-Jauregg Reaction / 654:
Wagner-Meerwein Rearrangement / 655:
Walden Inversion / 656:
Wallach Rearrangement / 657:
Weerman Reaction / 658:
Weidenhagen Synthesis / 659:
Weinreb Amide Formation / 660:
Weinreb Ketone Synthesis / 661:
Weiss-Cook Condensation / 662:
Weitz-Scheffer Epoxidation / 663:
Wender Indole Synthesis / 664:
Wessely-Moser Rearrangement / 665:
Westphalen Rearrangement / 666:
Wharton Rearrangement / 667:
Wibaut-Arens Alkylation / 668:
Wichterle Reaction / 669:
Widman-Stoermer Synthesis / 670:
Wilkinson's Catalyst / 671:
Willgerodt-Kindler Reaction / 672:
Williamson Ether Synthesis / 673:
Wittig Reaction / 674:
[1,2]-Wittig Rearrangement / 675:
[2,3]-Wittig Rearrangement / 676:
Wohl Degradation / 677:
Wohl-Aue Reaction / 678:
W¿ohler Synthesis / 679:
Wohl-Ziegler Bromination / 680:
Wolff Rearrangement / 681:
Wolffenstein-B¿oters Reaction / 682:
Wolff-Kishner Reduction / 683:
Woodward Cis-Hydroxylation / 684:
Wurtz Synthesis / 685:
Wurtz-Fittig Reaction / 686:
Yamada Coupling / 687:
Yamaguchi Esterification / 688:
Zeisel Determination / 689:
Zelinsky-Stadnikoff Reaction / 690:
Zempl´en Deacetylation / 691:
Zerewitinoff Determination / 692:
Ziegler Alcohol Synthesis / 693:
Ziegler-Hafner Azulene Synthesis / 694:
Ziegler-Natta Polymerization / 695:
Zimmermann Reaction / 696:
Zincke Disulfide Cleavage / 697:
Zincke Nitration / 698:
Zincke Reaction / 699:
Zincke-Suhl Reaction / 700:
Zinke Synthesis / 701:
Appendixes
Schematic Reaction Index
Reaction Type Summary
Summary of Initial Publications on Named Reactions
Journal Abbreviation
The Statistics of Reaction Published Years
Subject Index
Preface
Acknowledgments
Autobiography
27.

図書

東工大
目次DB

図書
東工大
目次DB
editors, Koichiro Tanaka ... [et al.]
出版情報: Bristol : IOP Pub., c2009  1 v. (various pagings) ; 30 cm
シリーズ名: Journal of Physics : conference series ; 148
所蔵情報: loading…
目次情報: 続きを見る
PREFACE 011001
WELCOME ADDRESS 011002
Multi-phonon dynamics of the ultra-fast photoinduced transition of (EDO-TTF)2SbF6 012001
   Maciej Lorenc, Nicolas Moisan, Marina Servol, Herve Cailleau, Shin-ya Koshihara, Mitsuhiko Maesato, Xiangfeng Shao, Yoshiaki Nakano, Hideki Yamochi, Gunzi Saito and Eric Collet
Anomalous photo-induced response by double-pulse excitation in the organic conductor (EDO-TTF)2PF6 012002
   Ken Onda, Sho Ogihara, Tadahiko Ishikawa, Yoichi Okimoto, Xiangfeng Shao, Yoshiaki Nakano, Hideki Yamochi, Gunzi Saito and Shin-ya Koshihara
Probing the photoinduced phase transition in (C2H5)2(CH3)2Sb[Pd(dmit)2]2 012003
   N Fukazawa, T Ishikawa, R Nakajima, Y Matsubara, M Kitayama, S Koshihara, Y Okimoto, K Onda, M Lorenc, E Collet, M Tamura and R Kato
Control of metal-insulator transition in (EDO-TTF)2SbF6 012004
   Mitsuhiko Maesato, Yoshiaki Nakano, Xiangfeng Shao, Yukihiro Yoshida, Hideki Yamochi, Gunzi Saito, Alain Moreac, Jean-Claude Ameline, Eric Collet, Mikio Uruichi and Kyuya Yakushi
Photogenerated polaronic state in a one-dimensional dimerized Mott insulator K-TCNQ 012005
   Nobuya Maeshima, Kenji Yonemitsu and Ken-ichi Hino
Effects of spin fluctuations, charge fluctuations and lattice distortions on charge orders in θ- and α-type BEDT-TTF salts 012006
   Satoshi Miyashita and Kenji Yonemitsu
Anion size and isotope effects in (EDO-TTF)2XF6 012007
   Yoshiaki Nakano, Hideki Yamochi, Gunzi Saito, Mikio Uruichi and Kyuya Yakushi
Excitation photon energy dependence of photo-induced phase transition in (EDO-TTF)2PF6 012008
   S Ogihara, K Onda, M Shimizu, T Ishikawa, Y Okimoto, X F Shao, Y Nakano, H Yamochi, G Saito and S Koshihara
Memory effect of photoinduced conductivity switching controlled by pulsed voltages in a molecular conductor 012009
   Toshifumi Iimori, Toshio Naito and Nobuhiro Ohta
DFT calculations for the high-temperature structure of (EDO-TTF)2PF6: Identification of an electronic molecular dimer 012010
   Kaoru Iwano and Yukihiro Shimoi
Ultrafast optical responses in one-dimensional Mott insulators of halogen-bridged Ni compounds 012011
   S Tao, T Miyagoe, H Matsuzaki, H Ohtsu, M Hasegawa, S Takaishi, M Yamashita and H Okamoto
Ultrafast photoinduced melting of spin-Peierls phase in potassium-tetracyanoquinodimethane 012012
   H Uemura, H Matsuzaki and H Okamoto
Time-resolved studies of phase transition dynamics in strongly correlated manganites 012013
   M Rini, R Tobey, N Dean, S Wall, H Ehrke, Y Zhu, Y Tomioka, Y Tokura, R W Schoenlein and A Cavalleri
Bidirectional and persistent photoinduced phase change in manganite thin films 012014
   Kenjiro Miyano
Ultrafast polarization and magnetization dynamics in a multiferroic GaFeO3 012015
   M Matsubara, Y Kaneko, J P He, H Okamoto and Y Tokura
Photoinduced cooperative phenomena in ferroelectric layered perovskites Pb2Bi4Ti5O18 studied by high resolution Raman scattering 012016
   Masaki Takesada, Ayaka Ueki and Akira Onodera
Photo-induced changes in charge-ordered state of Ti4O7 012017
   M Watanabe, M Miyahara and K Tanaka
Probing strongly correlated electron dynamics on extreme timescales 012018
   Simon Wall, Henri Ehrke, Dario Polli, Daniele Brida, Yoshinori Tokura, Hiroshi Okamoto, Giulio Cerullo and Andrea Cavalleri
Photoinduced insulator-metal transition in Pr0.5Ca0.5CoO3 as studied by femtosecond spectroscopy 012019
   Yoichi Okimoto, Xianzhou Peng, Mieko Tamura, Takaaki Morita, Ken Onda, Tadahiko Ishikawa, Shin-ya Koshihara, Naoyuki Todoroki, Toru Kyomen and Mitsuru Itoh
100ps time-resolved X-ray diffraction study on Nd0.5Sr0.5MnO3 thin film 012020
   Hirohiko Ichikawa, Shunsuke Nozawa, Tokushi Sato, Ayana Tomita, Kouhei Ichiyanagi, Matthieu Chollet, Laurent Guerin, Shin-ichi Adachi, Kenjiro Miyano and Shin-ya Koshihara
Excitation wavelength dependence of photoinduced phase transition in polycrystalline AgI at room temperature 012021
   Rahima Khaton, Toshifumi Iimori and Nobuhiro Ohta
Laser-induced phase transition of Ti4O7 single crystal 012022
   Chihiro Itoh and Wataru Katsube
Photo-induced magnetic solitons and the slow relaxation mechanism in diluted magnetic semiconductors 012023
   Ikuzo Kanazawa
Observation of coherent phonons in Ca-doped SrTiO3: Doping-induced ferroelectric phase transition and ultraviolet-illumination effect 012024
   Y Koyama, T Moriyasu, H Okamura, Y Yamada, K Tanaka and T Kohmoto
Effect of UV light irradiation in SnO2 thin film 012025
   Naoko Takubo, Yuji Muraoka and Zenji Hiroi
Complete temperature study of the relaxation from HS to LS state in the mixed [FexZn1-x(Phen)2(NCS)2] systems (with x = 1, 0.73, 0.5, 0.32, 0.19 and 0.04) 012026
   Cherif Balde, Cedric Desplanches, Olivier Nguyen, Jean-Francois Letard and Eric Freysz
New type of ordering process with volume change of molecules in the spin-crossover transition, and its new aspects of dynamical processes 012027
   Seiji Miyashita, Masamichi Nishino, Yusuke Konishi, Hiroko Tokoro, Kamel Boukheddaden, Francois Varret and Per Arne Rikvold
Photoinduced dynamics of prussian blue type cyanide 012028
   Y Moritomo, T Nakagawa, Y Fukuyama, N Yasuda, H Oosawa, J E Kim, H Kamioka, K Kato, Y Tanaka, S Kimura, F Nakada, S Ohkoshi, H Tanaka and M Takata
Spin crossover and LIESST effect of new iron(II) complexes with imidazole containing ligands 012029
   Naohide Matsumoto, Tetsuya Sato, Shingo Hashimoto, Masaaki Kojima and Seiichiro Iijima
Temperature dependence of photoinduced valence changes in rubidium manganese hexacyanoferrate probed by Raman spectroscopy 012030
   R Fukaya, M Nakajima, H Tokoro, S Ohkoshi and T Suemoto
Transient photo-induced phenomena in vacancy-controlled Co-Fe cyanides 012031
   H Kamioka, F Nakada, K Igarashi and Y Moritomo
First observation of soft x-ray induced phase transition of RbMn[Fe(CN)6] studied by Fe L-edge x-ray absorption spectroscopy 012032
   Yoshinori Kitajima, Kotaro Ishiji, Tomoyuki Matsuda, Hiroko Tokoro, Shin-ichi Ohkoshi and Toshiaki Iwazumi
The light-induced spin transition of tetranuclear spin crossover complex [Fe4(CN)4(bpy)4(tpa)2](PF6)4 012033
   T Nishihara, M Nihei, H Oshio and K Tanaka
Dynamical property of nucleation in spin crossover depending on the system boundary 012034
   Masamichi Nishino, Kamel Boukheddaden, Seiji Miyashita and Francois Varret
100-picosecond time-resolved X-ray absorption fine structure of FeII(1,10-phenanthroline)3 012035
   Tokushi Sato, Shunsuke Nozawa, Kouhei Ichiyanagi, Ayana Tomita, Hirohiko Ichikawa, Matthieu Chollet, Hiroshi Fujii, Shin-ichi Adachi and Shin-ya Koshihara
Light-induced phase separation (LIPS) in [Fe(ptz)6](BF4)2 spin-crossover single crystals: Experimental data revisited through optical microscope investigation 012036
   Francois Varret, Christian Chong, Antoine Goujon and Kamel Boukheddaden
Dynamic investigations of multiferroics: Terahertz and beyond 012037
   D Talbayev, A D LaForge, N Hur, T Kimura, S A Trugman, A V Balatsky, D N Basov, A J Taylor and R D Averitt
Electrically driven spin excitation at THz frequencies in bc and ab spiral spin phases of perovskite manganites 012038
   N Kida, Y Yamasaki, J P He, Y Kaneko, Y Ikebe, Y Takahashi, R Shimano, T Arima, N Nagaosa and Y Tokura
Ultrafast THz response of photo-induced insulator to metal transition in charge ordered organic conductor α-(BEDT-TTF)2I3 012039
   H Nakaya, Y Takahashi, S Iwai, K Yamamoto, K Yakushi and S Saito
Coherent THz wave induced excitation in superionic conductors 012040
   T Awano and T Takahashi
Broken symmetries and photoexcitation of 1T-TaS2 012041
   Luca Perfetti, Uwe Bovensiepen and Martin Wolf
Time and angle resolved photoemission spectroscopy using femtosecond visible and high-harmonic light 012042
   S Mathias, M Wiesenmayer, F Deicke, A Ruffing, L Miaja-Avila, M M Murnane, H C Kapteyn, M Bauer and M Aeschlimann
Probing reaction dynamics of transition-metal complexes in solution via time-resolved X-ray spectroscopy 012043
   Nils Huse, Munira Khalil, Tae Kyu Kim, Amanda L Smeigh, Lindsey Jamula, James K McCusker and Robert W Schoenlein
Pulsed synchrotron x-ray as a tool for providing molecular movies at 100-picosecond temporal and sub-nanometer spatial resolution 012044
   S Adachi, S Nozawa, K Ichiyanagi, H Ichikawa, M Chollet, L Guerin, R Tazaki, T Sato, A Tomita, H Sawa, T Arima, H Kawata and S Koshihara
Optically induced spin disorder in YVO3 012045
   D A Mazurenko, A A Nugroho, T T M Palstra and P H M van Loosdrecht
Observation of X-ray-induced phase transition phenomenon of cesium manganese hexacyanoferrate 012046
   K Ishiji, M Deguchi, N Nakajima, T Matsuda, H Tokoro, S Ohkoshi and T Iwazumi
Photo-induced charge-orbital switching in transition-metal compounds probed by photoemission spectroscopy 012047
   K Takubo, T Mizokawa, N Takubo, K Miyano, N Matsumoto and S Nagata
Formation of ordered structures of exciton condensed phases in quantum wells 012048
   V Sugakov
Bose-Einstein condensation of dipolar excitons in quantum wells 012049
   V B Timofeev and A V Gorbunov
Exciton Mott transition and pair condensation in the electron-hole system 012050
   Takuma Ohashi, Tomoya Ueda, Kenichi Asano and Tetsuo Ogawa
Formation control of electron-hole droplets in diamond by a weak pulse injection 012051
   J Omachi, N Naka, K Yoshioka and M Kuwata-Gonokami
Exciton Mott transition in electron-hole systems: Dynamical mean-field theory for the continuous-space model 012052
   Tomoya Ueda, Takuma Ohashi, Kenichi Asano and Tetsuo Ogawa
Multi-excitonic effects on optical spectra of semiconducting carbon nanotubes 012053
   Kouta Watanabe, Kenichi Asano and Tetsuo Ogawa
Photoinduced melting and charge order in quarter-filled organic conductors: Itinerant electron systems with competing interactions 012054
   Kenji Yonemitsu, Nobuya Maeshima, Yasuhiro Tanaka and Satoshi Miyashita
Dynamics of photoinduced insulator-metal transition in one-dimensional Mott insulators 012055
   Akira Takahashi
Photo-induced phenomena in correlated electron system with multi-degree of freedom 012056
   S Ishihara, Y Kanamori and H Matsueda
Theoretical study on the coherent nonlinear dynamics of photoinduced structural change 012057
   Kunio Ishida and Keiichiro Nasu
Photoinduced insulator-metal transition and nonlinear optical response of correlated electrons - a DMFT analysis 012058
   N Tsuji, T Oka and H Aoki
Density functional study of a photo-induced phase in graphite 012059
   H Ohnishi and K Nasu
Transient spectra of photo-excited states in double exchange model 012060
   Yu Kanamori, Hiroaki Matsueda and Sumio Ishihara
Photo-induced Hall Effect in graphene - effect of boundary types 012061
   Takashi Oka and Hideo Aoki
Disorder effects on relaxation of photoinduced metallic phase in one-dimensional Mott insulators 012062
   Mami Segawa, Akira Takahashi and Masaki Aihara
Photoinduced melting of charge order in quasi-two-dimensional organic conductors 012063
   Yasuhiro Tanaka and Kenji Yonemitsu
Early history and theoretical problems of photo-induced structural phase transitions 012064
   Keiichiro Nasu
Emergence of exotic spatio-temporal structure under photon flux 012065
   K Yoshikawa
The future of photo-induced phase transition (PIPT) - How fast and slow it can be changed? 012066
   A Tomita, S Koshihara, S Adachi, J Itatani, K Onda, S Ogihara, Y Nakano and H Yamochi
Laser-induced microscopic phase-transition on an ionic liquid 012067
   Natsuki Iguchi, Alokmay Datta, Kenichi Yoshikawa and Yue Ma
PREFACE 011001
WELCOME ADDRESS 011002
Multi-phonon dynamics of the ultra-fast photoinduced transition of (EDO-TTF)2SbF6 012001
28.

図書

図書
guest eds.: J. Yoshino, et al.
出版情報: Amsterdam : Elsevier, 2007  xix, 1050 p. ; 29 cm
シリーズ名: Journal of crystal growth ; v. 301-302
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29.

図書

図書
eds.: Z.R. Wasilewski, et al.
出版情報: Amsterdam : Elsevier, 2009  xii, 1621-2249 p. ; 29 cm
シリーズ名: Journal of crystal growth ; v. 311/7
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30.

図書

図書
guest editors, Friedhelm Bechstedt, Bruno K. Meyer, and Martin Stutzmann
出版情報: Weinheim : Wiley-VCH, c2003  [1567]-1951 p. ; 25 cm
シリーズ名: Physica status solidi ; C . Conferences and critical reviews ; 0, 6, 2003
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Preface
Deposition and structural properties
Growth of GaN quasi-substrates by hydride vapor phase epitaxy / Wei Zhang ; B.K. Meyer
Metalorganic chemical vapor phase epitaxy of gallium-nitride on silicon / A. Dadgar, et al.
Molecular beam epitaxy of cubic III-nitrides on GaAs substrates / D.J. As, et al.
Freestanding GaN-substrates and devices / Claudio R. Miskys, et al.
Surfactants and antisurfactants on group-III-nitride surfaces / J. Neugebauer
Indium distribution in epitaxially grown InGaN layers analyzed by transmission electron microscopy / D. Gerthsen, et al.
A theoretical investigation of dislocations in cubic and hexagonal gallium nitride / A.T. Blumenau, et al.
Lattice dynamics in GaN and AIN probed with first-and second-order Raman spectroscopy / U. Haboeck, et al.
Electronic and optical properties
Electronic and vibrational properties of group-III nitrides: Ab initio studies / F. Bechstedt, et al.)
Phonons and free-carrier properties of binary, ternary, and quaternary group-III nitride layers measured by Infrared Spectroscopic Ellipsometry / A. Kasic, et al.
Mg in GaN: the structure of the acceptor and the electrical activity / H. Alves, et al.
Local vibrational modes and compensation effects in Mg-doped GaN / A. Hoffmann, et al.
Optical micro-characterization of group-III-nitrides: correlation of structural, electronic and optical properties / J. Christen, et al.
Optical properties of nitride heterostructures (Andreas Hangleiter)
The origin of the PL photoluminescence Stokes shift in ternary group-III nitrides: field effects and localization / M. Strassburg, et al.
Devices and device issues
GaN based laser diodes - epitaxial growth and device fabrication / T. Bottcher, et al.
Optical gain, gain saturation, and waveguiding in group III-nitride heterostructures / M. Rowe, et al.
Electronics and sensors based on pyroelectric AlGaN/GaN heterostructures
Sensor applications / M. Eickhoff, et al.Part B:
Influence of polarization of the properties of GaN based FET structures / M. Neuburger, et al.
Gallium-nitride-based devices on silicon / A, Dadgar, et al.
Preface
Deposition and structural properties
Growth of GaN quasi-substrates by hydride vapor phase epitaxy / Wei Zhang ; B.K. Meyer
31.

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図書
Minhaeng Cho
出版情報: Boca Raton : CRC, c2009  378 p. ; 25 cm
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Preface
About the Author
Acknowledgments
Introduction / Chapter 1:
References
Quantum Dynamics / Chapter 2:
Time Evolution in Hilbert Space / 2.1:
Time-Dependent Perturbation Theory in Hilbert Space / 2.2:
Diagram Representation of the Time-Dependent Perturbation Theory in Hilbert Space / 2.3:
Transition Amplitude and Probability in Hilbert Space / 2.4:
Time Evolution in Liouville Space / 2.5:
Time-Dependent Perturbation Theory in Liouville Space / 2.6:
Transition Probability in Liouville Space and Pathways / 2.7:
Second-Order Transition between Two Populations / 2.7.1:
Second-Order Transition between Two Coherences / 2.7.2:
First-Order Transition between Population and Coherence / 2.7.3:
Linear Response Spectroscopy / Chapter 3:
Linear Response Function / 3.1:
System-Bath Interaction and Line Broadening / 3.2:
Rotational Averaging of Tensors / 3.3:
Linear Absorption Spectroscopy / 3.4:
Raman Scattering / 3.5:
Hyper-Raman Scattering / 3.6:
IR-Raman Surface Vibrational Spectroscopy / 3.7:
Raman-IR Surface Vibrational Spectroscopy / 3.8:
Appendix: Nonlinear Polarization and Generated Signal Electric Field
Second-Order Response Spectroscopy / Chapter 4:
Second-Order Response Function / 4.1:
Three-Level System and Line-Broadening Function / 4.2:
Sum Frequency Generation / 4.3:
Difference Frequency Generation / 4.4:
IR-IR-vis Four-Wave Mixing / 4.5:
Third-Order Response Spectroscopy / Chapter 5:
Third-Order Response Function / 5.1:
Four-Level System and Line-Broadening Function / 5.2:
Short-Time Approximation to the Third-Order Response Function / 5.3:
Third-Order Response Function of a Two-Level System / 5.4:
Pump-Probe Spectroscopy of a Two-Level System / 5.5:
Rephasing Photon Echo Spectroscopy of a Two-Level System / 5.6:
Nonrephasing Photon Echo Spectroscopy of a Two-Level System / 5.7:
Three-Pulse Photon Echo Peak Shift (PEPS) / 5.8:
Two-Dimensional Pump-Probe Spectroscopy / Chapter 6:
Introduction to Two-Dimensional Pump-Probe Spectroscopy / 6.1:
Two-Dimensional Pump-Probe Spectrum of Two-Level System / 6.2:
Two-Dimensional Pump-Probe Spectrum of an Anharmonic Oscillator / 6.3:
Two-Dimensional Photon Echo Spectroscopy / Chapter 7:
Phase and Amplitude Detection of the Two-Dimensional Photon Echo Signal Field / 7.1:
Two-Dimensional Photon Echo Spectrum of a Two-Level System / 7.2:
Two-Dimensional Nonrephasing Photon Echo Spectrum of a Two-Level System / 7.3:
Two-Dimensional Photon Echo Spectrum of an Anharmonic Oscillator / 7.4:
Simple Two-Dimensional Lorentzian Peak Shape / 7.5:
Simple Two-Dimensional Gaussian Peak Shape / 7.6:
Coupled Multi-Chromophore System / Chapter 8:
Frenkel Hamiltonian in Site Representation / 8.1:
Delocalized Exciton Representation / 8.2:
Delocalized State Energy and Transition Dipole Matrix Element / 8.3:
Transition Frequency-Frequency Correlation Functions / 8.4:
Exchange-Narrowing Effect on Absorption Spectrum / 8.5:
Measurements of Auto- and Cross-Frequency-Frequency Correlation Functions / 8.6:
Exciton Population Transfer / 8.7:
Two-Dimensional Spectroscopy of Coupled Dimers / Chapter 9:
Model Hamiltonian of a Coupled Two-Level System Dimer / 9.1:
Delocalized Excited-State Energy Fluctuations and Time Correlation Functions / 9.2:
Coupled Two-Level System Dimer: Quantum Beats at Short Time / 9.3:
Coupled Two-Level System Dimer: Intermediate Time Region / 9.4:
Coupled Two-Level System Dimer: Population Transfer Effects / 9.5:
Coupled Anharmonic Oscillators: Model Hamiltonian / 9.6:
Coupled Anharmonic Oscillators: Two-Dimensional Photon Echo Spectrum at Short Time / 9.7:
Coupled Anharmonic Oscillators: Degenerate Case / 9.8:
Coupled Anharmonic Oscillators: Population Transfer Effects / 9.9:
Chemical Exchange and Two-Dimensional Spectroscopy / Chapter 10:
Model System / 10.1:
Chemical Exchange Diagrams: Two-Level System / 10.2:
Chemical Exchange Diagrams: Anharmonic Oscillator / 10.3:
Polarization-Controlled Two-Dimensional Spectroscopy / Chapter 11:
Parallel Polarization ZZZZ-Echo: Two-Level System / 11.1:
Perpendicular Polarization ZYYZ-Echo: Two-Level System / 11.2:
Difference Two-Dimensional Photon Echo Spectrum: Coupled Two-Level System Dimer / 11.3:
Parallel Polarization ZZZZ-Echo: Anharmonic Oscillators / 11.4:
Perpendicular Polarization ZYYZ-Echo: Anharmonic Oscillators / 11.5:
Difference Two-Dimensional Echo Spectrum: Coupled Anharmonic Oscillators / 11.6:
Generalized Polarization-Controlled Two-Dimensional Spectroscopy / 11.7:
Determination of the Angle between Any Two Transition Dipole Vectors / 11.8:
Applications of Two-Dimensional Vibrational Spectroscopy / Chapter 12:
Single Anharmonic Oscillator Systems / 12.1:
Coupled Two-Oscillator Systems / 12.2:
Polypeptide Secondary Structures / 12.3:
Globular Proteins and Membrane-Bound Proteins / 12.4:
Nucleic Acids / 12.5:
Hydrogen-Bonding Dynamics and Chemical Exchange / 12.6:
Solute-Solvent Complexation and Micro-Solvation / 12.7:
Internal Rotation / 12.8:
Transient Two-Dimensional IR Spectroscopy: Protein Folding and Unfolding / 12.9:
Applications of Two-Dimensional Electronic Spectroscopy / Chapter 13:
Application to Fenna-Matthews-Olson Light-Harvesting Complex / 13.1:
Application to Semiconductors / 13.2:
Two-Dimensional Second-Order Response Spectroscopy / Chapter 14:
Two-Dimensional Sum Frequency Generation / 14.1:
Two-Dimensional Sum Frequency Generation of Solution Sample / 14.2:
Two-Dimensional Sum Frequency Generation of Coupled Two-Level System Dimer / 14.3:
Two-Dimensional Sum Frequency Generation of Coupled Anharmonic Oscillators / 14.4:
Two-Dimensional Difference Frequency Generation / 14.5:
IR-IR-vis Sum Frequency Generation and Difference Frequency Generation / 14.6:
Other IR-IR-vis Four-Wave-Mixings / 14.7:
Fifth-Order Raman Scattering / 14.8:
Linear Optical Activity Spectroscopy / Chapter 15:
Radiation-Matter Interaction Hamiltonian and Polarization / 15.1:
Circular Dichroism and Optical Rotatory Dispersion / 15.2:
Raman Optical Activity / 15.3:
IR-Raman Optical Activity Spectroscopy / 15.4:
Raman-IR Optical Activity Spectroscopy / 15.5:
Nonlinear Optical Activity Spectroscopy / Chapter 16:
Nonlinear Optical Activity Measurement Methods / 16.1:
Rotational Averaging of Higher-Rank Tensors / 16.2:
Two-Dimensional Optical Activity Pump-Probe: Two-Level System / 16.3:
Two-Dimensional Optical Activity Photon Echo: Two-Level System / 16.4:
Two-Dimensional Optical Activity Photon Echo of Coupled Two-Level System Dimer / 16.5:
Index
Preface
About the Author
Acknowledgments
32.

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図書
Michael A. Bean
出版情報: Providence, R.I. : American Mathematical Society, 2009, c2001  xiii, 448 p. ; 24 cm
シリーズ名: The Sally series ; . Pure and applied undergraduate texts ; 6
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Introduction
A survey of some basic concepts through examples
Classical probability
Random variables and probability distributions
Special discrete distributions
Special continuous distributions
Transformations of random variables
Sums and products of random variables
Mixtures and compound distributions
The Markowitz investment portfolio selection model
Appendixes
Answers to selected exercises
Index
Introduction
A survey of some basic concepts through examples
Classical probability
33.

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guest eds., Jean Camassel, et al.
出版情報: Berlin : Wiley-VCH, 2005  [xii], 501-704, 1245-1448, [xiii]-xvi p. ; 25 cm
シリーズ名: Physica status solidi ; A . Proceedings ; v.202, no.4(2005) ; C . Proceedings ; v.2, no.4(2005)
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Andrey Karshikoff
出版情報: London ; Hackensack, N.J. : Imperial College Press , Singapore : Distributed by World Scientific, c2006  xii, 333 p. ; 24 cm
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guest editors, Yoshiro Hirayama and Tetsuomi Sogawa
出版情報: Weinheim : Wiley-VCH, c2008  [A24], 2699-[3202], A25-A32 p. ; 28 cm
シリーズ名: Physica status solidi ; . Proceedings ; 5, no.9, 2008
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図書
by Edwin O. Reischauer ; translated by Masao Kunihiro = エドウィン・O・ライシャワー著 ; 國弘正雄訳
出版情報: Tokyo ; Rutland, Vt. : Tuttle Pub., c1988  159 p. ; 21 cm
シリーズ名: Tuttle classics
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Shai Vaingast
出版情報: Berkeley, Calif. : Apress, c2009  xx, 363 p. ; 24 cm
シリーズ名: The expert's voice in open source
Books for professionals by professionals
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図書
Peter Hinterdorfer, Antoine van Oijen, editors
出版情報: New York : Springer, c2009  xxi, 626 p. ; 26 cm
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Imaging with Electrons: Atomic Resolution Transmission Electron Microscopy / Angus I. Kirkland ; John L. HutchinsonVolume I G++:
Scanning Transmission Electron Microscopy / Peter D. Nellist
Scanning Electron Microscopy / Rudolf Reichelt
Analytical Electron Microscopy / Gianluigi Botton
High Speed Electron Microscopy / Wayne E. Knight ; Michael R. Armstrong ; Oleg Bostangjoglo ; Bryan W. Reed
In Situ Transmission Electron Microscopy / Frances M. Ross
Cryoelectron Tomography (CET) / Juergen M. Plitzko ; Wolfgang Baumeister
LEEM and SPLEEM / Ernst Bauer
Photoemission Electron Microscopy (PEEM) / Jun Feng ; Andreas Scholl
Aberration Correction / Peter W. Hawkes
Volume II G++
Imaging with Photons: Two-Photon Excitation Fluoresence Microscopy / Alberto Diaspro, et al.Part II:
Nanoscale Resolution in Far-Field Fluoresence Microscopy / Stefan W. Hell
Principles and Applications of Zone Plate X-Ray Microscopes / Malcolm Howell ; Christopher Jacobsen ; Tony Warwick
Near / Part III:
Field Scanning Probes: Scanning Probe Microscopy in Materials Science / Maxim P. Nikiforov ; Dawn A. Bonnell
Scanning Tunneling Microscopy in Surface Science / Peter Sutter
Atomic Force Microscopy in the Life Sciences / Matthias Amrein
Low-Temperature Scanning Tunneling Microscopy / Uwe Weierstall
Holographic and Lensless Modes: Electron Holography / Rafal E. Dunin-Borkowski, et al.Part IV:
Diffractive (Lenseless) Imaging / John C.H. Spence
The Notion of Resolution / S. Van Aert, et al.
Imaging with Electrons: Atomic Resolution Transmission Electron Microscopy / Angus I. Kirkland ; John L. HutchinsonVolume I G++:
Scanning Transmission Electron Microscopy / Peter D. Nellist
Scanning Electron Microscopy / Rudolf Reichelt
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D.W. van Krevelen
出版情報: Amsterdam ; Tokyo : Elsevier, 2009  xxvi, 1004 p. ; 27 cm
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William J. Puette
出版情報: Tokyo : Tuttle Publishing, [2009], c1983  192 p. ; 21 cm
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Felix A. Buot
出版情報: New Jersey : World Scientific, c2009  xxi, 815 p. ; 26 cm
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Franco Orsucci
出版情報: Singapore : World Scientific, 2009  ix, 152 p. ; 24 cm
シリーズ名: Studies of nonlinear phenomena in life science ; v. 12
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by Stephen and Ethel Longstreet
出版情報: Tokyo : Tuttle, c2009  224 p. ; 21 cm
シリーズ名: Tuttle classics
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図書
Katsuhisa Furuta, Jun Ishikawa, editors
出版情報: London : Springer, c2009  xxiii, 211 p. ; 25 cm
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Abbreviations and Acyronyms
List of Contributors
Introduction / Part I:
The Anti-personnel Landmine Problem, Existing Demining Technologies and Operating Procedures / Jun Ishikawa ; Katsuhisa Furuta1:
Japanese Action for Humanitarian Demining / 1.2:
Short-term R&D Project / 1.2.1:
Mid-term R&D Project / 1.2.2:
References
Dual Sensor Systems Ground Penetrating Radar and Metal Detectors / Part II:
Principles of Mine Detection by Ground-penetrating Radar / Motoyuki Sato2:
GPR Principles / 2.1:
Electromagnetic Wave Propagation in Soil / 2.2.1:
Reflection of Electromagnetic Waves from Land Mines / 2.2.2:
Clutter / 2.2.3:
GPR Survey / 2.3:
Operation Frequency / 2.3.1:
GPR System / 2.3.2:
Signal Processing / 2.3.3:
Development of Dual Sensors and Deployment in Mine Affected Countries / Kazunori Takahashi3:
ALIS / 3.1:
ALIS Configuration and GPR / 3.2.1:
Sensor Head / 3.2.2:
Sensor Tracking System / 3.2.3:
Data Processing and Display / 3.2.4:
ALIS Operation / 3.2.5:
Evaluation Test of ALIS / 3.3:
ALIS Evaluation Before 2006 / 3.3.1:
Test Lane Trial in Cambodia, 2006 / 3.3.2:
Test Lane Trial in Croatia, 2007 / 3.3.3:
Quality Control Test in Mine-fields in Croatia, 2006-2007 / 3.3.4:
Buggy-Mounted System / 3.4:
ALIS-EMI / 3.5:
Summary / 3.6:
Development of an Array Antenna Landmine Detection Radar System / Yoshiyuki Tomizawa ; Ikuo Arai ; Shinji Gotoh4:
Anti-personnel Landmine Detection Radar Using an Array Antenna / 4.1:
Radar Waveform / 4.2.1:
Development of the Wideband Antenna / 4.2.2:
Creating an Antenna Array / 4.2.3:
Development of the Ultra-compact Impulse Radar / 4.2.4:
Architecture of the Landmine Detection Radar / 4.2.5:
Prototype / 4.3:
Detection Tests / 4.4:
Single Antenna Laboratory Testing / 4.4.1:
Array Antenna Laboratory Testing / 4.4.2:
Evaluation Testing in Japan / 4.4.3:
International Evaluation Testing / 4.4.4:
Scan-image Improvements / 4.5:
Effects of Ground Surface Unevenness / 4.5.1:
Improving Identification Accuracy Through Super-resolution Signal Processing / 4.5.2:
Applying Music Processing to Pulse Radar / 4.5.3:
Reducing the Size and Weight of the Array Antenna Landmine Detection Radar / 4.6:
Size and Weight of the Antenna / 4.6.1:
Increasing Data Acquisition Speed / 4.6.2:
Installation on a Gryphon All-terrain Vehicle / 4.7:
Test and Evaluation of Japanese GPR-EMI Dual Sensor Systems at the Benkovac Test Site in Croatia / Nikola Pavković4.8:
Test and Evaluation Overview / 5.1:
Benkovac Test Site / 5.2.1:
Four Devices to Be Evaluated / 5.2.2:
Test and Evaluation Plan / 5.3:
Experimental Design / 5.3.1:
Trial Procedures / 5.3.2:
Evaluation Method / 5.3.3:
Experimental Results / 5.4:
ANOVA Results / 5.4.1:
Probability of Detection / 5.4.2:
ROC Curves and the Role of GPR / 5.4.3:
Acknowledgments / 5.5:
Annex 5.1 Comprehensive Result of Probability of Detection (PD)
Vehicle Systems Based on Advanced Robotics for Humanitarian Demining / Part III:
Environment-adaptive Anti-personnel Mine Detection System: Advanced Mine Sweeper / Toshio Fukuda ; Yasuhisa Hasegawa ; Kazuhiro Kosuge ; Kiyoshi Komoriya ; Fumihisa Kitagawa ; Tomohiro Ikegami6:
System Architecture / 6.1:
Sensing Technology / 6.3:
Integrated Sensor / 6.3.1:
Signal Processing for Geography-adaptive Sensing / 6.3.2:
Access-control Technology / 6.4:
Sensor Manipulation System / 6.4.1:
Sensing Vehicle / 6.4.2:
Access Vehicle / 6.4.3:
Assist Vehicle / 6.4.4:
Information Management System / 6.5:
Experiments / 6.6:
Humanitarian Demining Operation Using the Teleoperated Buggy Vehicle Gryphon with a Mine Sensors Equipped Arm / Edwardo F. Fukushima ; Shigeo Hirose6.7:
System Details / 7.1:
Mobile Platform / 7.2.1:
Manipulator Arm / 7.2.2:
Stereo Vision Camera / 7.2.3:
Marking System / 7.2.4:
Control Box / 7.2.5:
Mine Sensors / 7.2.6:
Field Tests / 7.3:
Consistency of Mechanized Sensor Scanning / 7.3.1:
Improved Methodology for Evaluating Metal Detector Sensor Images / 7.3.2:
Objective Evaluation of Robotics System for Humanitarian Demining / 7.4:
Annex 7.1 Procedures for Test and Evaluation / 7.5:
Development of Mine Detection Robot Mine Hunter Vehicle (MHV), Controlled Metal Detector and Multi-functional Hydraulic Manipulator / Kenzo Nonami8:
State of the Art of Teleoperated Mine Detection by Vehicle-mounted Mine Detector / 8.1:
Concept and Implementation of Mine Hunter Vehicle (MHV) / 8.2:
Controlled Metal Detector Mounted on Mine Detection Robot / 8.3:
Methods of Estimating the Position of Buried Landmines / 8.3.1:
Experiments on Mine Detection / 8.3.2:
Control and Operation of a Teleoperated and Master-slave Hydraulic Manipulator for Landmine Prodding and Excavation / 8.3.3:
Operation Strategy / 8.4.1:
Master-slave Manipulator / 8.4.2:
Explosive Sensor / 8.5:
Nuclear Quadrupole Resonance for Explosive Detection / Hideo Itozaki9:
Explosive Detection by NQR / 9.1:
NQR Mine Detection / 9.3:
Demonstration of NQR Mine Detection / 9.4:
Application of NQR Detector / 9.5:
Development of a High-performance Landmine Detection System Through Gamma-ray Detection by Using a Compact Fusion Neutron Source and Dual-sensors / Kiyoshi Yoshikawa ; Kai Masuda ; Teruhisa Takamatsu ; Yasushi Yamamoto ; Hisayuki Toku ; Takeshi Fujimoto9.6:
Principle of Landmine Detection Through Nuclear Reactions / 10.1:
An Inertial-electrostatic Confinement Fusion (IECF) Neutron Source / 10.2:
Advanced Dual-sensors for Gamma-ray Diagnostics / 10.3:
Configuration of Humanitarian Landmine Detection System / 10.4:
Criteria for Landmine Detection / 10.5:
Landmine Imitators and Conditions for Testing / 10.6:
Test Results of Neutron-captured Gamma-rays Diagnostics / 10.7:
Test Results of Back-scattered Neutron Diagnostics / 10.8:
Development of a Compact Neutron Capture Gamma-ray Imaging System for Anti-personnel Landmine Detection / Tetsuo Iguchi ; Jun Kawarabayashi ; Ken-ichi Watanabe ; Tatsuo Shoji ; Tatsuya Osawa ; Shinji Mihoya ; Tadashi Hasegawa ; Masanori Shimazaki ; Toshiaki Monaka10.9:
Compact and Intense Neutron Generator / 11.1:
Compact High Energy Gamma-camera / 11.3:
Principle and Algorithm for Gamma-ray Imaging / 11.4:
Integration of NPGA System / 11.5:
Performance Tests on Anti-personnel Landmine Detection / 11.6:
Development of an "Electronic Dog Nose" Based on an SPR Immunosensor for Highly Sensitive Detection of Explosives / Takeshi Onodera ; Norio Miura ; Kiyoshi Matsumoto ; Kiyoshi Toko11.7:
Odor Sensor / 12.1:
SPR Sensor / 12.3:
Antibody Production / 12.4:
Indirect Competitive Assay / 12.5:
Sampling System for Nitro Aromatic Compounds Using a Preconcentrator / 12.6:
Index / 12.7:
Abbreviations and Acyronyms
List of Contributors
Introduction / Part I:
45.

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東工大
目次DB

図書
東工大
目次DB
Sumio Watanabe
出版情報: Cambridge, UK : Cambridge University Press, 2009  viii, 286 p. ; 24 cm
シリーズ名: Cambridge monographs on applied and computational mathematics ; 25
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1 Introduction 1
   1.1 Basic concepts in statistical learning 1
   1.2 Statistical models and learning machines 10
   1.3 Statistical estimation methods 18
   1.4 Four main formulas 26
   1.5 Overview of this book 41
   1.6 Probability theory 42
2 Singularity theory 48
   2.1 Polynomials and analytic functions 48
   2.2 Algebraic set and analytic set 50
   2.3 Singularity 53
   2.4 Resolution of singularities 58
   2.5 Normal crossing singularities 66
   2.6 Manifold 72
3 Algebraic geometry 77
   3.1 Ring and ideal 77
   3.2 Real algebraic set 80
   3.3 Singularities and dimension 86
   3.4 Real projective space 87
   3.5 Blow-up 91
   3.6 Examples 99
4 Zeta function and singular integral 105
   4.1 Schwartz distribution 105
   4.2 State density function 111
   4.3 Mellin transform 116
   4.4 Evaluation of singular integral 118
   4.5 Asymptotic expansion and b-function 128
5 Empirical processes 133
   5.1 Convergence in law 133
   5.2 Function-valued analytic functions 140
   5.3 Empirical process 144
   5.4 Fluctuation of Gaussian processes 154
6 Singular learning theory 158
   6.1 Standard form of likelihood ratio function 160
   6.2 Evidence and stochastic complexity 168
   6.3 Bayes and Gibbs estimation 177
   6.4 Maximum likelihood and a posteriori 203
7 Singular learning machines 217
   7.1 Learning coefficient 217
   7.2 Three-layered neural networks 227
   7.3 Mixture models 230
   7.4 Bayesian network 233
   7.5 Hidden Markov model 234
   7.6 Singular learning process 235
   7.7 Bias and variance 239
   7.8 Non-analytic learning machines 245
8 Singular statistics 249
   8.1 Universally optimal learning 249
   8.2 Generalized Bayes information criterion 252
   8.3 Widely applicable information criteria 253
   8.4 Singular hypothesis test 258
   8.5 Realization of a posteriori distribution 264
   8.6 From regular to singular 274
   Bibliography 277
   Index 284
1 Introduction 1
   1.1 Basic concepts in statistical learning 1
   1.2 Statistical models and learning machines 10
46.

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based on the Lost series one companion book by Mark Cotta Vaz
出版情報: [S.l.] : Scholastic, 2008  2 v. ; 20 cm
シリーズ名: Scholastic reader ; Level 3
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47.

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図書
Norman F. Cheville
出版情報: Ames, Iowa : Wiley-Blackwell, 2009  xvi, 973 p. ; 29 cm
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Structural Basis of Cell Injury / Part I:
Cellular Response to Injury / 1:
Cell Death / 2:
Cell Defense & Recovery. / 3:
Organelle Pathology / Part II:
Cell Surface and Cytoskeleton. / 4:
Intracellular traffiking. / 5:
Organelles of Protein Synthesis / 6:
Organ. of Lipid & Carb Metabolism / 7:
Mitochondria. / 8:
Inflammation & Hemostasis / Part III:
Endothelium / 9:
Leukocytes & Platelets. / 10:
Monocyte-macrophage system. / 11:
Fibroblasts, fibrosis and the ECM. / 12:
Cytopath of Intracell Infect / Part VI:
Viral diseases. / 13:
Bacterial disease. / 14:
Protozoal diseases / 15:
Fungi and algae. / 16:
Toxic Diseases / Part V:
Hepatotoxicity / 17:
Myotoxins / 18:
Neurotoxicity / 19:
Nephrotoxicity / 20:
Pulmonary toxicity. / 21:
Dysfunctional Growth & Neoplasia
Cell Cycle: Regeneration & Aging / 22:
Neoplasia. / 23:
Diagnostic Pathology / Part VII:
Calcification and Mineralization / 24:
Pigments / 25:
Protein Misfolding & Inclusion Bodies / 26:
Storage diseases / 27:
Arteriopathy / 28:
Glomerulopathies / 29:
Prion Diseases / 30:
Structural Basis of Cell Injury / Part I:
Cellular Response to Injury / 1:
Cell Death / 2:
48.

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図書
Lauren Weisberger
出版情報: London : Mary Glasgow Magazines (Scholastic), 2008  56 p. ; 20 cm
シリーズ名: Scholastic reader ; Level 2
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図書
Andrea S. Foulkes
出版情報: New York : Springer, c2009  xxiii, 252 p. ; 24 cm
シリーズ名: Use R! / series editors, Robert Gentleman, Kurt Hornik, Giovanni Parmigiani
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Preface
List of Tables
List of Figures
Acronyms
Genetic Association Studies / 1:
Overview of population-based investigations / 1.1:
Types of investigations / 1.1.1:
Genotype versus gene expression / 1.1.2:
Population-versus family-based investigations / 1.1.3:
Assocation versus population genetics / 1.1.4:
Data components and terminology / 1.2:
Genetic information / 1.2.1:
Traits / 1.2.2:
Covariates / 1.2.3:
Data examples / 1.3:
Complex disease association studies / 1.3.1:
HIV genotype association studies / 1.3.2:
Publicly available data used throughout the text / 1.3.3:
Problems
Elementary Statistical Principles / 2:
Background / 2.1:
Notation and basic probability concepts / 2.1.1:
Important epidemiological concepts / 2.1.2:
Measures and tests of association / 2.2:
Contingency table analysis for a binary trait / 2.2.1:
M-sample tests for a quantitative trait / 2.2.2:
Generalized linear model / 2.2.3:
Analytic challenges / 2.3:
Multiplicity and high dimensionality / 2.3.1:
Missing and unobservable data considerations / 2.3.2:
Race and ethnicity / 2.3.3:
Genetic models and models of association / 2.3.4:
Genetic Data Concepts and Tests / 3:
Linkage disequilibrium (LD) / 3.1:
Measures of LD: D' and r2 / 3.1.1:
LD blocks and SNP tagging / 3.1.2:
LD and population stratification / 3.1.3:
Hardy-Weinberg equilibrium (HWE) / 3.2:
Pearson's X2-test and Fisher's exact test / 3.2.1:
HWE and population substructure / 3.2.2:
Quality control and preprocessing / 3.3:
SNP chips / 3.3.1:
Genotyping errors / 3.3.2:
Identifying population substructure / 3.3.3:
Relatedness / 3.3.4:
Accounting for unobservable substructure / 3.3.5:
Multiple Comparison Procedures / 4:
Measures of error / 4.1:
Family-wise error rate / 4.1.1:
False discovery rate / 4.1.2:
Single-step and step-down adjustments / 4.2:
Bonferroni adjustment / 4.2.1:
Tukey and Scheffe tests / 4.2.2:
False discovery rate control / 4.2.3:
The q-value / 4.2.4:
Resampling-based methods / 4.3:
Free step-down resampling / 4.3.1:
Null unrestricted bootstrap / 4.3.2:
Alternative paradigms / 4.4:
Effective number of tests / 4.4.1:
Global tests / 4.4.2:
Methods for Unobservable Phase / 5:
Haplotype estimation / 5.1:
An expectation-maximization algorithm / 5.1.1:
Bayesian haplotype reconstruction / 5.1.2:
Estimating and testing for haplotype-trait association / 5.2:
Two-stage approaches / 5.2.1:
A fully likelihood-based approach / 5.2.2:
Supplemental notes
Supplemental R scripts
Classification and Regression Trees / 6:
Building a tree / 6.1:
Recursive partitioning / 6.1.1:
Splitting rules / 6.1.2:
Defining inputs / 6.1.3:
Optimal trees / 6.2:
Honest estimates / 6.2.1:
Cost-complexity pruning / 6.2.2:
Additional Topics in High-Dimensional Data Analysis / 7:
Random forests / 7.1:
Variable importance / 7.1.1:
Missing data methods / 7.1.2:
Logic regression / 7.1.3:
Multivariate adaptive regression splines / 7.3:
Bayesian variable selection / 7.4:
Further readings / 7.5:
Appendix R Basics
Getting started / A.1:
Types of data objects / A.2:
Importing data / A.3:
Managing data / A.4:
Installing packages / A.5:
Additional help / A.6:
References
Glossary of Terms
Glossary of Select R Packages
Subject Index
Index of R Functions and Packages
Preface
List of Tables
List of Figures
50.

図書

図書
Anthony Mescher
出版情報: New York : McGraw-Hill, c2010  xi, 467 p. ; 28 cm.
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Key Features
Preface
Acknowledgments
Histology and Its Methods of Study / 1:
Preparation of Tissues for Study
Light Microscopy
Electron Microscopy
Autoradiography
Cell & Tissue Culture
Histochemistry & Cytochemistry
Detection Methods Using Specific Interactions Between Molecules
Problems in the Study of Tissue Sections
The Cytoplasm / 2:
Cell Differentiation
Cytoplasmic Organelles
The Cytoskeleteon
Inclusions
The Cell Nucleus / 3:
Components of the Nucleus
Cell Division
The Cell Cycle
Stem Cells and Tissue Renewal
Meiosis
Apoptosis
Epithelial Tissue / 4:
Characteristic Features of Epithelial Cells
Specializations of the Apical Cell Surface
Types of Epithelia
Transport Across Epithelia
Renewal of Epithelial Cells
Connective Tissue / 5:
Cells of Connective Tissue
Fibers
Ground Substance
Types of Connective Tissue
Adipose Tissue / 6:
White Adipose Tissue
Brown Adipose Tissue
Cartilage / 7:
Hyaline Cartilage
Elastic Cartilage
Fibrocartilage
Cartilage Formation, Growth and Repair
Bone / 8:
Bone Cells
Bone Matrix
Periosteum & Endostreum
Types of Bone
Osteogenesis
Bone Growth, Remodeling, & Repair
Metabolic Role of Bone
Joints
Nerve Tissue & The Nervous System / 9:
Development of Nerve Tissue
Neurons
Glial Cells & Neuronal Activity
Central Nervous System
Peripheral Nervous System
Neural Plasticity & Regeneration
Muscle Tissue / 10:
Skeletal Muscle
Cardiac Muscle
Smooth Muscle
Rengeneration of Muscle Tissue
The Circulatory System / 11:
Heart
Tissues of the Vascular Wall
Structural Plan of Blood Vessels
Vasculature
Lymphatic Vascular System
Blood / 12:
Composition of Plasma
Blood Cells
Hemopoiesis / 13:
Stem Cells, Growth Factors, & Differentiation
Bone Marrow
Maturation of Erythrocytes
Maturation of Granulocytes
Maturation of Agranulocytes
Origin of Platelets
The Immune System & Lymphoid Organs / 14:
Antigens
Antibodies
Cytokines
Cells of the Immune System
Types of Immune Responses
Lymphoid Tissues
Thymus
Musoca-Associated Lymphoid Tissue (MALT)
Lymph Nodes
Spleen
Digestive Tract / 15:
General Structure of the Digestive Tract
Oral Cavity
Esophagus
Stomach
Small Intestine
Large Intestine
Organs Associated with the Digestive Tract / 16:
Salivary Glands
Pancreas
Liver
Hepatic Lobule Structure & Function
Biliary Tract & Gallbladder
The Respiratory System / 17:
Respiratory Epithelium
Nasal Cavities
Sinuses & Nasopharynx
Larynx
Trachea
Bronchial Tree & Lung
Pulmonary Vasculature & Nerves
Pleura
Respiratory Movements
Skin / 18:
Epidermis
Dermis
Subcutaneous Tissue
Vessels & Sensory Receptors
Hair
Nails
Glands of the Skin
The Urinary System / 19:
Kidneys
Blood Circulation
Ureters, Bladder, & Urethra
Endocrine Glands / 20:
Pituitary Gland (Hypophysis)
Adrenal Glands
Pancreatic Islets
Diffuse Neuroendocrine System
Thyroid Gland
Parathyroid Gland
Pineal Gland
The Male Reproductive System / 21:
Testes
Intratesticular Ducts
Excretory Genital Ducts
Accessory Glands
Penis
The Female Reproductive System / 22:
Ovaries
Uterine Tubes
Uterus
Vagina
Mammary Glands
The Eye and Ear: Special Sense Organs / 23:
Eyes: The Photoreceptor System
Ears: The Vestibuloauditory System
Appendix: Light Microscopy Stains
Figure Credits
Index
Key Features
Preface
Acknowledgments
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