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出版社:科學
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ISBN:9787030414304
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作者:(希)洛戈斯|主編:白春禮
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頁數:217
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出版日期:2014-07-01
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印刷日期:2014-07-01
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包裝:精裝
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開本:16開
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版次:1
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印次:1
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字數:292千字
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洛戈斯主編的《納米結構材料及其應用(英文 版)(精)》介紹應用於能量及有機電子學領域中的納 米結構和納米材料。彙集先進的納米材料沉積和加工 方法,例如激光生長、納米圖案化等,還重點介紹了 納米材料的光學、電子學、表面及力學性質的表征。 所闡述的理論和實踐涉及的材料形貌多樣,包括納米 粒子、納米管、薄膜等。
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1 Nanotechnology: Principles and Applications S. Logothetidis 1.1 Introduction 1.2 Methods and Principles of Nanotechnology 1.2.1 What Makes Nanostructures Unique 1.2.2 Size Dependence 1.2.3 Metal NPs 1.2.4 Quantum Dots 1.2.5 Nanotechnology Imitates Nature 1.3 From Microelectronics to Nanoelectronics and Molecular Electronics 1.4 Nano in Energy and Clean Energy 1.5 Nanotechnology Tools: Nanometrology 1.6 Future Perspectives 1.7 Summary References 2 Carbon Nanomaterials: Synthesis, Properties and Applications Kyriakos Porfyrakis and Jamie H. Warner 2.1 Introduction 2.2 Fullerenes and Their Derivatives 2.2.1 Synthesis of Endohedral Fullerenes 2.2.2 Endohedral Metallofullerenes 2.2.3 Endohedral Nitrogen Fullerenes 2.2.4 Molecular Synthesis of Endohedral Fullerenes 2.2.5 Purification of Endohedral Fullerenes 2.2.6 Properties and Applications 2.2.7 Chemistry of Endohedral Fullerenes 2.2.8 One-Dimensional, Two-Dimensional Arrays and Beyond 2.3 Graphene 2.3.1 Synthesis 2.3.2 Properties and Applications 2.4 Carbon Nanotubes 2.4.1 Synthesis 2.4.2 Applications 2.5 Summary References 3 Carbon Nanotubes: From Symmetry to Applications M. Damnjanovic 3.1 Introduction: Symmetry of Nanotubes 3.1.1 Configuration of Single-Wall Nanotubes 3.1.2 Symmetry of Single-Wall Nanotubes 3.1.3 Double-Wall Nanotubes 3.2 Energy Bands 3.2.1 Electronic Bands 3.2.2 Phonons 3.3 Interaction Between Walls 3.3.1 Potential Produced by Nanotube 3.3.2 Interaction 3.4 Summary References 4 Laser-Based Growth of Nanostructured Thin Films P. Patsalas 4.1 Introduction 4.2 Instrumentation and Principles of Pulsed Laser Deposition 4.3 Examples and Applications 4.3.1 External Control of Ablated Species and Application to Ta-C Films [29] 4.3.2 Self-Assembled Nanoparticles into Dielectric-Matrix Films and Superlattices [52, 54] 4.3.3 Control of the Atomic Structure and Nanostructure of Intermetallic and Glassy Films [147] References 5 High Efficiency Multijunction Solar Cells with Finely-Tuned Quantum Wells Argyrios C. Varonides 5.1 What is a Solar Cell? 5.2 Photo-Currents 5.3 Solution of the Diffusion Equation: n-Region 5.4 Solution of the Diffusion Equation: P-Region 5.5 Total Electron and Hole Currents 5.6 P-I-N Geometries of Solar Cells 5.7 A Proposed Device 5.8 The Concept 5.9 Current Research Objectives: A Proposed Guideline 5.10 To Probe Further References 6 Thin Film Deposition and Nanoseale Characterisation Techniques Spyridon Kassavetis, Christoforos Gravalidis, and Stergios Logothetidis 6.1 Introduction 6.2 Methods and Results 6.2.1 Thin Film Deposition Techniques 6.2.2 Physical Vapor Deposition: Magnetron Sputtering 6.2.3 Nanoscale Characterization of Sputtered Thin Films 6.2.4 Wet Deposition Techniques of Thin Films 6.3 Summary: Conclusion References 7 Implementation of Optical Characterization for Flexible Organic Electronics Applications A. Laskarakis and S. Logothetidis 7.1 Introduction 7.2 Optical Characterization of Materials 7.3 Flexible Organic Electronic Devices 7.4 Results and Discussion 7.4.1 Flexible Polymeric Substrates 7.4.2 Barrier Layers for Encapsulation of Devices 7.4.3 Transparent Electrodes (Inorganic, Organic) 7.5 Conclusions and Perspectives References 8 Introduction to Organic Vapor Phase Deposition (OVPD?) Technology for Organic (Opto-)electronics Dietmar Keiper, Nico Meyer, and Michael Heuken 8.1 Introduction 8.2 OVPD? Basics and Industrial Concept 8.3 OVPD?Deposition of Organic Thin Films and Devices 8.3.1 Single Film Deposition 8.3.2 Organic Film Morphology 8.3.3 OLED Stack Designs Fabricated by OVPD?-Cross-Fading 8.4 Conclusion References 9 Computational Studies on Organic Electronic Materials Leonidas Tsetseris 9.1 Introduction 9.2 Computional Methods 9.2.1 A Brief Overview 9.2.2 First-Principles Methods 9.2.3 First-Principles Methods: Limitations and Extensions 9.2.4 Carrier Hopping Mechanisms 9.2.5 Monte Carlo Simulations 9.3 Results and Findings 9.4 Summary and Outlook References 10 Self-Assembly of Colloidal Nanoparticles on Surfaces:Towards Surface Nanopatterning Vasileios Koutsos, John Walker, and Emmanouil Glynos 10.1 Introduction and Theoretical Background 10.1.1 Colloidal Particle Interactions 10.1.2 van der Waals Forces 10.1.3 Electrostatic Interactions 10.1.4 DLVO Theory 10.1.5 Electrolyte Concentration Control over Interactions 10.1.6 Steric Interactions 10.2 Experimental 10.2.1 Atomic Force Microscopy 10.3 Drying and Immersion Capillary Forces: The Emergence of Order 10.3.1 Crystalline Monolayers of Colloidal Silica on Mica 10.4 Dewetting Effects: Self-Organisation 10.4.1 Dewetting Structures of Colloidal Magnetite Nanoparticles on Mica 10.4.2 Adsorption and Self-Assembly of Soft Colloid Nanoparticles on Mica 10.5 Conclusions References Index
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