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1.

図書

図書
Michael R. King and Nipa A. Mody
出版情報: Cambridge ; Tokyo : Cambridge University Press, 2011  xii, 581 p. ; 26 cm
シリーズ名: Cambridge texts in biomedical engineering
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Types and sources of numerical error / 1:
Systems of linear equations / 2:
Statistics and probability / 3:
Hypothesis testing / 4:
Root finding techniques for nonlinear equations / 5:
Numerical quadrature / 6:
Numerical integration of ordinary differential equations / 7:
Nonlinear data regression and optimization / 8:
Basic algorithms of bioinformatics / 9:
Introduction to MATLAB / Appendix A:
Location of nodes for Gauss-Legendre quadrature / Appendix B:
Types and sources of numerical error / 1:
Systems of linear equations / 2:
Statistics and probability / 3:
2.

図書

図書
edited by Sebastian Schlücker
出版情報: Weinheim : Wiley-VCH, c2011  xxii, 331 p. ; 25 cm
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Theory And Practice Of Available Sers Substrates
Solid SERS Substrates
Nanoparticles as SERS Substrates
Tunable SERS Substrates
Functionalized Nanoparticle Probes for Targeted Research
Analytical Applications Of Sers
SERS in Environmental Sciences
SERS and Pharmaceuticals
SERS in Solid-Phase Chemistry
SERS for Bacteria Detection
SERS for Genomics
SERS for Proteomics
SERS for Lipidomics and Metabolomics
SERS and Bioinformatics
SERS Combined With Other Analytical Techniques
SERS and Chromatography (GC, HPLC)
SERS and Electrophoresis
SERS and Levitation Techniques
SERS and Microfluidics
SERS for Biosensors
Biophysical Applications Of Sers
SEROA = SE RAman Optical Activity
SERS in Electron Transfer
SERS in Electrochemistry
SERRS: SE Resonance Raman Scattering
SERS in the Ultraviolet
SERS in Langmuir-Blodgett Films
Single Molecule SERS
Microscopic Applications Of Sers And Related Techniques
SERS Microscopy for In Vitro Tissue Diagnostics
In Vivo SERS Microscopy
SERS as an Intracellular Probe
SERS for Probing Intracellular Pharmacokinetics
Tip-Enhanced Raman Scattering (TERS) and Microscopy
Tip-Enhanced Infrared Spectroscopy (TEIRS) and Microscopy
Femtosecond Stimulated Raman Scattering (FSRS) and Microscopy
Coherent Anti-Stokes Raman Scattering (CARS) and Microscopy
Theory And Practice Of Available Sers Substrates
Solid SERS Substrates
Nanoparticles as SERS Substrates
3.

図書

図書
edited by Andrew B. Hughes
出版情報: Weinheim : Wiley-VCH, c2011  xx, 583 p. ; 25 cm
シリーズ名: Amino acids, peptides and proteins in organic chemistry / edited by Andrew B. Hughes ; v. 3
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Amino Acids As Building Blocks
Alpha-Amino Acid Biosnythesis (Proteinogenic and Non-Proteinogenic)
Heterocycles from Amino Acids
Radical Synthetic Methods for Alpha-Amino Acids
Enzymatic or Microbial Beta-Lactam Synthesis
Amino Acid Coupling Chemistry
Solution Phase Peptide Synthesis
Solid Phase Peptide Synthesis: Historical Aspects
Solid Phase Peptide Synthesis: Linkers
Solid Phase Peptide Synthesis: The Fmoc Methodology 1
Solid Phase Peptide Synthesis: The Fmoc Methodology 2
Solid Phase Peptide Synthesis: SPPS Strategies
Coupling Reagents
Chemical Ligation
Automation of Peptide Synthesis
Peptide Purification
Difficult Peptides
Amino Acids As Building Blocks
Alpha-Amino Acid Biosnythesis (Proteinogenic and Non-Proteinogenic)
Heterocycles from Amino Acids
4.

図書

図書
Linda J.S. Allen
出版情報: Boca Raton : CRC Press, c2011  xxiv, 466 p. ; 25 cm
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5.

図書

図書
Guozhong Cao, Ying Wang
出版情報: Singapore : World Scientific, c2011  xiii, 581 p. ; 23 cm
シリーズ名: World scientific series in nanoscience and nanotechnology ; v. 2
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Preface to the Second Edition
Introduction / Chapter 1:
Emergence of Nanotechnology / 1.1:
Bottom-Up and Top-Down Approaches / 1.3:
Challenges in Nanotechnology / 1.4:
Scope of the Book / 1.5:
References
Physical Chemistry of Solid Surfaces / Chapter 2:
Surface Energy / 2.1:
Chemical Potential as a Function of Surface Curvature / 2.3:
Electrostatic Stabilization / 2.4:
Surface charge density / 2.4.1:
Electric potential at the proximity of solid surface / 2.4.2:
Van der Waals attraction potential / 2.4.3:
Interactions between two particles: DLVO theory / 2.4.4:
Steric Stabilization / 2.5:
Solvent and polymer / 2.5.1:
Interactions between polymer layers / 2.5.2:
Mixed steric and electric interactions / 2.5.3:
Summary / 2.6:
Zero-Dimensional Nanostructures: Nanoparticles / Chapter 3:
Nanoparticles Through Homogeneous Nucleation / 3.1:
Fundamentals of homogeneous nucleation / 3.2.1:
Subsequent growth of nuclei / 3.2.2:
Growth controlled by diffusion / 3.2.2.1:
Growth controlled by surface process / 3.2.2.2:
Synthesis of metallic nanoparticles / 3.2.3:
Influences of reduction reagents / 3.2.3.1:
Influences by other factors / 3.2.3.2:
Influences of polymer stabilizer / 3.2.3.3:
Synthesis of semiconductor nanoparticles / 3.2.4:
Synthesis of oxide nanoparticles / 3.2.5:
Introduction to sol-gel processing / 3.2.5.1:
Forced hydrolysis / 3.2.5.2:
Controlled release of ions / 3.2.5.3:
Vapor phase reactions / 3.2.6:
Solid-state phase segregation / 3.2.7:
Nanoparticles Through Heterogeneous Nucleation / 3.3:
Fundamentals of heterogeneous nucleation / 3.3.1:
Synthesis of nanoparticles / 3.3.2:
Kinetically Confined Synthesis of Nanoparticles / 3.4:
Synthesis inside micelles or using microemulsions / 3.4.1:
Aerosol synthesis / 3.4.2:
Growth termination / 3.4.3:
Spray pyrolysis / 3.4.4:
Template-based synthesis / 3.4.5:
Epitaxial Core-Shell Nanoparticles / 3.5:
One-Dimensional Nanostructures: Nanowires and Nanorods / 3.6:
Spontaneous Growth / 4.1:
Evaporation (dissolution)-condensation growth / 4.2.1:
Fundamentals of evaporation (dissolution)-condensation growth / 4.2.1.1:
Evaporation-condensation growth / 4.2.1.2:
Dissolution-condensation growth / 4.2.1.3:
Vapor (or solution)-liquid-solid (VLS or SLS) growth / 4.2.2:
Fundamental aspects of VLS and SLS growth / 4.2.2.1:
VLS growth of various nanowires / 4.2.2.2:
Control of the size of nanowires / 4.2.2.3:
Precursors and catalysts / 4.2.2.4:
Solution-liquid-solid growth / 4.2.2.5:
Stress-induced recrystallization / 4.2.3:
Template-Based Synthesis / 4.3:
Electrochemical deposition / 4.3.1:
Electrophoretic deposition / 4.3.2:
Template filling / 4.3.3:
Colloidal dispersion filling / 4.3.3.1:
Melt and solution filling / 4.3.3.2:
Chemical vapor deposition / 4.3.3.3:
Deposition by centrifugation / 4.3.3.4:
Converting through chemical reactions / 4.3.4:
Electrospinning / 4.4:
Lithography / 4.5:
Two-Dimensional Nanostructures: Thin Films / 4.6:
Fundamentals of Film Growth / 5.1:
Vacuum Science / 5.3:
Physical Vapor Deposition (PVD) / 5.4:
Evaporation / 5.4.1:
Molecular beam epitaxy (MBE) / 5.4.2:
Sputtering / 5.4.3:
Comparison of evaporation and sputtering / 5.4.4:
Chemical Vapor Deposition (CVD) / 5.5:
Typical chemical reactions / 5.5.1:
Reaction kinetics / 5.5.2:
Transport phenomena / 5.5.3:
CVD methods / 5.5.4:
Diamond films by CVD / 5.5.5:
Atomic Layer Deposition / 5.6:
Superlattices / 5.7:
Self-Assembly / 5.8:
Monolayers of organosilicon or alkylsilane derivatives / 5.8.1:
Monolayers of alkanethiols and sulfides / 5.8.2:
Monolayers of carboxylic acids, amines, and alcohols / 5.8.3:
Langmuir-Blodgett Films / 5.9:
Electrochemical Deposition / 5.10:
Sol-Gel Films / 5.11:
Special Nanomaterials / 5.12:
Carbon Fullerenes and Nanotubes / 6.1:
Carbon fullerenes / 6.2.1:
Fullerene-derived crystals / 6.2.2:
Carbon nanotubes / 6.2.3:
Micro and Mesoporous Materials / 6.3:
Ordered mesoporous structures / 6.3.1:
Random mesoporous structures / 6.3.2:
Crystalline microporous materials: Zeolites / 6.3.3:
Core-Shell Structures / 6.4:
Metal-oxide structures / 6.4.1:
Metal-polymer structures / 6.4.2:
Oxide-polymer nanostructures / 6.4.3:
Organic-Inorganic Hybrids / 6.5:
Class 1 hybrids / 6.5.1:
Class 2 hybrids / 6.5.2:
Intercalation Compounds / 6.6:
Nanocomposites and Nanograined Materials / 6.7:
Inverse Opals / 6.8:
Bio-Induced Nanomaterials / 6.9:
Nanostructures Fabricated by Physical Techniques / 6.10:
Photolithography / 7.1:
Phase-shifting photolithography / 7.2.2:
Electron beam lithography / 7.2.3:
X-ray lithography / 7.2.4:
Focused ion beam (FIB) lithography / 7.2.5:
Neutral atomic beam lithography / 7.2.6:
Nanomanipulation and Nanolithography / 7.3:
Scanning tunneling microscopy (STM) / 7.3.1:
Atomic force microscopy (AFM) / 7.3.2:
Near-field scanning optical microscopy (NSOM) / 7.3.3:
Nanomanipulation / 7.3.4:
Nanolithography / 7.3.5:
Soft Lithography / 7.4:
Microcontact printing / 7.4.1:
Molding / 7.4.2:
Nanoimprint / 7.4.3:
Dip-pen nanolithography / 7.4.4:
Assembly of Nanoparticles and Nanowires / 7.5:
Capillary forces / 7.5.1:
Dispersion interactions / 7.5.2:
Shear-force-assisted assembly / 7.5.3:
Electric-field-assisted assembly / 7.5.4:
Covalently linked assembly / 7.5.5:
Gravitational-field-assisted assembly / 7.5.6:
Template-assisted assembly / 7.5.7:
Other Methods for Microfabrication / 7.6:
Characterization and Properties of Nanomaterials / 7.7:
Structural Characterization / 8.1:
X-ray diffraction (XRD) / 8.2.1:
Small angle X-ray scattering (SAXS) / 8.2.2:
Scanning electron microscopy (SEM) / 8.2.3:
Transmission electron microscopy (TEM) / 8.2.4:
Scanning probe microscopy (SPM) / 8.2.5:
Gas adsorption / 8.2.6:
Chemical Characterization / 8.3:
Optical spectroscopy / 8.3.1:
Electron spectroscopy / 8.3.2:
Ion spectrometry / 8.3.3:
Physical Properties of Nanomaterials / 8.4:
Melting points and lattice constants / 8.4.1:
Mechanical properties / 8.4.2:
Optical properties / 8.4.3:
Surface plasmon resonance / 8.4.3.1:
Quantum size effects / 8.4.3.2:
Electrical conductivity / 8.4.4:
Surface scattering / 8.4.4.1:
Change of electronic structure / 8.4.4.2:
Quantum transport / 8.4.4.3:
Effect of microstructure / 8.4.4.4:
Ferroelectrics and dielectrics / 8.4.5:
Superparamagnetism / 8.4.6:
Applications of Nanomaterials / 8.5:
Molecular Electronics and Nanoelectronics / 9.1:
Nanobots / 9.3:
Biological Applications of Nanoparticles / 9.4:
Catalysis by Gold Nanoparticles / 9.5:
Bandgap Engineered Quantum Devices / 9.6:
Quantum well devices / 9.6.1:
Quantum dot devices / 9.6.2:
Nanomechanics / 9.7:
Carbon Nanotube Emitters / 9.8:
Energy Applications of Nanomaterials / 9.9:
Photoelectrochemical cells / 9.9.1:
Lithium-ion rechargeable batteries / 9.9.2:
Hydrogen storage / 9.9.3:
Thermoelectrics / 9.9.4:
Environmental Applications of Nanomaterials / 9.10:
Photonic Crystals and Plasmon Waveguides / 9.11:
Photonic crystals / 9.11.1:
Plasmon waveguides / 9.11.2:
Appendices / 9.12:
Index
Preface to the Second Edition
Introduction / Chapter 1:
Emergence of Nanotechnology / 1.1:
6.

図書

図書
[Neil A.] Campbell ... [et al.]
出版情報: San Francisco, Calif. ; Tokyo : Pearson Education, c2011  1309, [155] p. ; 28 cm
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7.

図書

図書
edited by Bertil Schmidt
出版情報: Boca Raton, Fla. : CRC Press, c2011  xiv, 356 p ; 25 cm
シリーズ名: Embedded multi-core systems
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目次情報: 続きを見る
Preface
Editor
Contributors
Algorithms for Bioinformatics / Bertil Schmidt1:
Introduction to GPGPUs and Massively Threaded Programming / Robert M. Farber2:
FPGA: Architecture and Programming / Douglas Maskell3:
Parallel Algorithms for Alignments on the Cell BE / Abhinav Sarje ; Srinivas Aluru4:
Orchestrating the Phylogenetic Likelihood Function on Emerging Parallel Architectures / Alexandros Stamatakis5:
Parallel Bioinformatics Algorithms for CUDA-Enabled GPUs / Yongchao Liu6:
CUDA Error Correction Method for High-Throughput Short-Read Sequencing Data / Haixiang Shi ; Weiguo Liu7:
FPGA Acceleration of Seeded Similarity Searching / Arpith C. Jacob ; Joseph M. Lancaster ; Jeremy D. Buhler ; Roger D. Chamberlain8:
Seed-Based Parallel Protein Sequence Comparison Combining Multithreading, GPU, and FPGA Technologies / Dominique Lavenier ; Van-Hoa Nguyen9:
Database Searching with Profile-Hidden Markov Models on Reconfigurable and Many-Core Architectures / John Paul Walters ; Vipin Chaudhary10:
COPACOBANA: A Massively Parallel FPGA-Based Computer Architecture / Manfred Schimmler ; Lars Wienbrandt ; Tim Güneysu ; Jost Bissel11:
Accelerating String Set Matching for Bioinformatics Using FPGA Hardware / Yoginder S. Dandass12:
Reconfigurable Neural System and Its Application to Dimeric Protein Binding Site Identification / Feng Lin ; Maria Stepanova13:
Parallel FPGA Search Engine for Protein Identification / Daniel Coca ; Istvan Bogdan ; Robert J, Beynon14:
Index
Preface
Editor
Contributors
8.

図書

図書
Donald E. Knuth
出版情報: Upper Saddle River, N.J. ; Tokyo : Addison-Wesley, c2011  xv, 883 p. ; 25 cm
シリーズ名: The art of computer programming ; v. 4A
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9.

図書

図書
平井通宏著
出版情報: 東京 : ジャパンタイムズ, 2011.2  x, 299p ; 21cm
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10.

図書

図書
Laura Frost, Todd Deal, Karen C. Timberlake
出版情報: Upper Saddle River, NJ : Prentice Hall, c2011  xvi, 475 p. ; 28 cm
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