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1.

図書

図書
Guillaume Baffou
出版情報: Cambridge : Cambridge University Press, 2018  xv, 291 p. ; 26 cm
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2.

図書

図書
edited by Miguel A. Esteso ... [et al.]
出版情報: Palm Bay, Fla. : Apple Academic Press, 2022  xix, 497 p. ; 24 cm
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3.

図書

図書
出版情報: Cambridge : Royal Society of Chemistry, 2015  483 p. ; 24 cm
シリーズ名: Faraday discussions ; v. 178
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4.

図書

図書
editors, Menka Jain ... [et al.]
出版情報: Warrendale, Pa. : Materials Research Society , Cambridge : Cambridge University Press, 2013  xi, 185 p. ; 24 cm
シリーズ名: Materials Research Society symposium proceedings ; v. 1547
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5.

図書

図書
by Vincent Rotello
出版情報: New York : Kluwer Academic, c2004  x, 284 p. ; 26 cm
シリーズ名: Nanostructure science and technology / series editor, David J. Lockwood
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6.

図書

図書
Reshef Tenne
出版情報: Singapore : World Scietifc, c2013  xiii, 312 p. ; 29 cm
シリーズ名: World scientific series in nanoscience and nanotechnology ; v. 5
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7.

図書

図書
edited by Tito Trindade, Ana L. Daniel da Silva
出版情報: Singapore : Pan Stanford Publishing, c2011  xxii, 289, 4 p. ; 24 cm
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目次情報: 続きを見る
List of Figures
List of Tables
Preface
From Nanoparticles to Nanocomposites: A Brief Overview / 1:
Nanoscience and Nanotechnology: An introduction / 1.1:
Nanoparticles' Diversity / 1.2:
Quantum dots / 1.2.1:
Iron oxides / 1.2.2:
Metal nanoparticles / 1.2.3:
Surface Modification of Nanoparticles / 1.3:
Ligand exchange reactions / 1.3.1:
Inorganic nanocoating / 1.3.2:
Encapsulation in polymers / 1.3.3:
Designing Biointerfaces over Nanoparticles / 1.4:
Challenges for the Future... Nanosafety for Today / 1.5:
Polymers for Biomedical Applications: Chemical Modification and Biofunctionalization / 2:
Drug Delivery Systems / 2.1:
Hydrogels / 2.2:
Application of hydrogels / 2.2.1:
Types of hydrogels / 2.2.2:
Bioadhesives / 2.3:
Surface Modification / 2.4:
Surface modification by ultra-violet radiation / 2.4.1:
Plasma treatment / 2.4.2:
Plasma generation / 2.4.2.1:
Plasma polymerization and surface modification of polymers / 2.4.2.2:
Concluding Remarks / 2.5:
Nanocapsules as Carriers for the Transport and Targeted Delivery of Bioactive Molecules / 3:
Introduction / 3.1:
Polymeric Nanocapsules: Production and Characterization / 3.2:
Nanocapsules made of synthetic polymers / 3.2.1:
Polyacrylate nanocapsules / 3.2.1.1:
Polyester nanocapsules / 3.2.1.2:
Nanocapsules made of natural polymers / 3.2.2:
Lipid nanocapsules / 3.2.3:
Therapeutical Applications of Nanocapsules / 3.3:
Nanocapsules for oral drug delivery / 3.3.1:
Nanocapsules for oral peptide delivery / 3.3.1.1:
Nanocapsules for oral delivery of lipophilic low molecular weight drugs / 3.3.1.2:
Nanocapsules as nasal drug carriers / 3.3.2:
Nanocapsules as ocular drug carriers / 3.3.3:
Nanocapsules in cancer therapy / 3.3.4:
Nanocapsules as carriers for gene therapy / 3.3.5:
Conclusions / 3.4:
Inorganic Nanoparticles Biofunctionalization / 4:
Bioeonjugation of Nanoparticles / 4.1:
Nanoparticles and Their Surface Properties / 4.2:
Surface capping of nanoparticles / 4.2.1:
Semiconductor quantum dots and metallic nanoparticles / 4.2.2:
Silica nanoparticles and silica encapsulation / 4.2.3:
Attachment Schemes / 4.3:
Covalent attachment / 4.3.1:
Non-covalent attachment / 4.3.2:
Affinity binding / 4.3.3:
Specific Cases / 4.4:
Proteins / 4.4.1:
DNA / 4.4.2:
Avidin / 4.4.3:
Phospholipid encapsulation and functionalization / 4.4.4:
Applications / 4.5:
Cellular imaging / 4.5.1:
Drug delivery / 4.5.2:
Bioluminescence resonance energy transfer / 4.5.3:
Hyperthermia / 4.5.4:
Conclusion / 4.6:
Silica-Based Materials: Bioprocesses and Nanocomposites / 5:
Natural Silica Nanocomposites / 5.1:
Diatom biosilica / 5.1.1:
Sponge biosilica / 5.1.3:
(Bio)-technological applications of biosilica / 5.1.4:
Biomimetic Silica Nanocomposites / 5.2:
Silica nanocomposites based on natural templates / 5.2.1:
Silica nanocomposites based on model templates / 5.2.3:
Synthetic peptides / 5.2.3.1:
Synthetic polyamines / 5.2.3.2:
Biological templates / 5.2.3.3:
Biomimetism: How far can we go? / 5.2.4:
Bio-Inspired Silica Nanocomposites / 5.3:
Biotechnological and medical applications / 5.3.1:
Perspectives / 5.3.3:
Synthetic Strategies for Polymer-Based Nanocomposite Particles / 6:
Surfaces and Interfaces: Chemical Modification of Nanoparticles / 6.1:
In situ Synthetic Strategies for Polymer-Based Colloidal Nanocomposites / 6.3:
In situ preparation of the fillers / 6.3.1:
Sol-gel methods / 6.3.1.1:
In situ polymerization of the matrix / 6.3.2:
Organic solvent-based methods: Dispersion polymerization / 6.3.2.1:
Water-based methods: Emulsion and miniemulsion polymerization / 6.3.2.2:
Controlled polymerization: Surface initiated polymerization(SIP) / 6.3.3:
Atom Transfer Radical Polymerization Atrp / 6.3.3.1:
Reversible Addition Fragmentation chain transfer (Raft) polymerization / 6.3.3.2:
Combined controlled polymerization mechanisms / 6.3.3.3:
Functionalization of Polymer-Based Nanocomposites for Bio-Applications / 6.4:
Final Remarks / 6.5:
Synthesis of Nanocomposite Particles Using Supercritical Fluids: A Bridge with Bio-applications / 7:
Supercritical Fluids: Definition and Current use in, Bio-Applications / 7.1:
Definition / 7.2.1:
Scps in biomedical applications / 7.2.2:
Development of drug delivery systems / 7.2.2.1:
scC02 for purification and sterilization / 7.2.2.2:
Can Scfs be Used to Introduce Inorganic NPs into Polymers? / 7.3:
Formation of hybrid organic-inorganic NPs in Scps(route 1) / 7.3.1:
Encapsulation of inorganic NPs into a polymer shell (route 2) / 7.3.2:
Polymer swelling and in situ growth of inorganic NPs (route 3) / 7.3.3:
Polymer swelling by scC02 / 7.3.3.1:
Chemical transformation of impregnated metal precursor / 7.3.3.2:
Biocomposites Containing Magnetic Nanoparticles / 7.4:
Magnetic Properties / 8.1:
Magnetism at nanoscale level: Concepts and main phenomena / 8.2.1:
Basic concepts / 8.2.1.1:
Systems with interactions between magnetic centers / 8.2.1.2:
Superparamagnetism / 8.2.1.3:
Magnetism concepts subjacent to bio-applicatons / 8.2.2:
Magnetic separation and drug delivery / 8.2.2.1:
Magnetic resonance imaging (Mri) / 8.2.2.2:
Magnetic hyperthermia / 8.2.2.3:
Magnetic Nanoparticles for Bio-Applications / 8.3:
Iron oxide nanoparticles / 8.3.1:
Metallic nanoparticles / 8.3.2:
Metal alloy nanoparticles / 8.3.3:
Bimagnetic nanoparticles / 8.3.4:
Strategies of Synthesis of Magnetic Biocomposite Nanoparticles / 8.4:
In situ formation of magnetic nanoparticles / 8.4.1:
Other magnetic nanoparticles / 8.4.1.1:
Encapsulation of magnetic nanoparticles within biopolymers / 8.4.2:
Conclusions and Future Outlook / 8.5:
Multifunctional Nanoeomposite Particles for Biomedical Applications / 9:
Types of Multifunctional Magnetic-Fluorescent Nanocomposites / 9.1:
Main Approaches to the Preparation of Multifunctional Magnetic-Fluorescent Nanocomposites / 9.3:
Silica coated magnetic-fluorescent nanoparticles / 9.3.1:
Organic polymer coated magnetic cores treated with fluorescent entities / 9.3.2:
Ionic assemblies of magnetic cores and fluorescent entities / 9.3.3:
Fluoreseently-labeled lipid coated magnetic nanoparticles / 9.3.4:
Magnetic core directly linked to fluorescent entity via a molecular spacer / 9.3.5:
Magnetic cores coated by fluorescent semiconducting shells / 9.3.6:
Magnetically-doped Qds / 9.3.7:
Magnetic nanoparticles and Qds embedded within a polymer or silica matrix / 9.3.8:
Biomedical Applications / 9.4:
Bio-imaging probes / 9.4.1:
Cell tracking, sorting and bioseparation / 9.4.2:
Applications in nanomedicine / 9.4.3:
Bio-Applications of Functionalized Magnetic Nanoparticles and Their Nanocomposites / 9.5:
Fundaments of Nanomagnetism / 10.1:
Single-domain particles / 10.2.1:
Magnetic anisotropy energy / 10.2.2:
Fundaments of Colloidal Stability / 10.2.3:
Bio-Applications of Magnetic Nanoparticles / 10.4:
Magnetic separation / 10.4.1:
Nuclear magnetic resonance imaging (Mri) / 10.4.2:
Contrast agents based on superparamagnetic nanomagnets / 10.4.3.1:
Magnetobiosensors / 10.4.4:
Magnetobiosensors based on magnetorelaxometry / 10.4.4.1:
Magnetobiosensors based on magnetoresistance / 10.4.4.2:
Magnetosensors based on Hall effect / 10.4.4.3:
Magnetoplasmonics / 10.4.4.4:
Summary and Outlook / 10.4.5:
Anti-Microbial Polymer Nanocomposites / 11:
Packaging / 11.1:
Textiles / 11.1.2:
Coatings / 11.1.3:
Antimicrobial coatings / 11.1.3.1:
Medicine, pathology and surgical implants/ biomedical coatings / 11.1.3.2:
Anti-Microbial Polymer-Based Nanocomposites / 11.2:
Mechanisms of Antibacterial Action / 11.3:
Detection of microbes / 11.3.1:
Control of microbial growth / 11.3.2:
Environmental and Health Concerns / 11.4:
Biosensing Applications Using Nanoparticles / 12:
Biosensors: A Definition / 12.1:
Uses of Gold Nanoparticles / 12.2:
Tailoring biointerfaces over gold nanoparticles / 12.2.1:
Biosensing applications of gold nanoparticles / 12.2.2:
Crosslinking-based biosensing / 12.2.2.1:
Non-crosslmking-based biosensing / 12.2.2.2:
Semiconductor Quantum Dots / 12.3:
Properties of quantum dots / 12.3.1:
Biosensing with quantum dots / 12.3.2:
Immunosensing / 12.3.2.1:
Dna assays / 12.3.2.2:
Resonance energy transfer-based assays / 12.3.2.3:
Outlook Remarks / 12.4:
Index
List of Figures
List of Tables
Preface
8.

図書

図書
volume editors, Luca Prodi, Marco Montalti, Nelsi Zaccheroni ; with contributions by A. Accetta ... [et al.]
出版情報: Heidelberg : Springer, c2011  xi, 222 p. ; 24 cm
シリーズ名: Topics in current chemistry = Fortschritte der chemischen Forschung ; 300
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目次情報: 続きを見る
Molecular Logic Gates and Luminescent Sensors Based on Photoinduced Electron Transfer / A. Prasanna de Silva ; Seiichi Uchiyama
Luminescent Chemical Sensing, Biosensing, and Screening Using Upconverting Nanoparticles / Daniela E. Achatz ; Reham Ali ; Otto S. Wolfbeis
Luminescence Amplification Strategies Integrated with Microparticle and Nanoparticle Platforms / Shengchao Zhu ; Tobias Fischer ; Wei Wan ; Ana B. Descalzo ; Knut Rurack
Luminescent Chemosensors Based on Silica Nanoparticles / Sara Bonacchi ; Damiano Genovese ; Riccardo Juris ; Marco Montalti ; Luca Prodi ; Enrico Rampazzo ; Massimo Sgarzi ; Nelsi Zaccheroni
Fluorescence Based Sensor Arrays / Roberto Paolesse ; Donato Monti ; Francesca Dini ; Corrado Di Natale
Enantioselective Sensing by Luminescence / Alessandro Accetta ; Roberto Corradini ; Rosangela Marchelli
Index
Molecular Logic Gates and Luminescent Sensors Based on Photoinduced Electron Transfer / A. Prasanna de Silva ; Seiichi Uchiyama
Luminescent Chemical Sensing, Biosensing, and Screening Using Upconverting Nanoparticles / Daniela E. Achatz ; Reham Ali ; Otto S. Wolfbeis
Luminescence Amplification Strategies Integrated with Microparticle and Nanoparticle Platforms / Shengchao Zhu ; Tobias Fischer ; Wei Wan ; Ana B. Descalzo ; Knut Rurack
9.

図書

図書
edited by Vikas Mittal
出版情報: Boca Raton, Fla. : CRC Press, Taylor & Francis Group, c2011  xi, 372 p. ; 25 cm
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10.

電子ブック

EB
Kallum M. Koczkur & Sara E. Skrabalak
出版情報:   1 online resource
シリーズ名: ACS in focus ;
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目次情報:
Fundamentals of Metal Nanocrystal Formation -- Classic Systems for Metal Nanocrystal Synthesis -- Properties and Applications of Metallic Nanocrystals -- Safety and Other Synthetic Considerations -- Metal Nanocrystals and the Environment -- Future Outlook.
Fundamentals of Metal Nanocrystal Formation -- Classic Systems for Metal Nanocrystal Synthesis -- Properties and Applications of Metallic Nanocrystals -- Safety and Other Synthetic Considerations -- Metal Nanocrystals and the Environment -- Future Outlook.
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