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納米材料物理基礎(英文版)(精)

  • 作者:張邦維|譯者:張恆//譚肇升//吳力軍//孟慶平
  • 出版社:化學工業
  • ISBN:9787122329455
  • 出版日期:2019/01/01
  • 裝幀:精裝
  • 頁數:465
人民幣:RMB 298 元      售價:
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內容大鋼
    張邦維著的《納米材料物理基礎(英文版)(精)》以最新原始論文為素材,採取從讀者出發的角度和態度,將納米材料學發展現狀和水平呈獻給廣大讀者。著濃墨于納米材料最主要和通常使用的製備方法、納米材料的結構、它的形成機理、特別是 納米材料物理性能理論的內容,而且包括了納米材料的力學、熱學、光學、電學、磁學等物理學性能方 面的內容。書中獨特地強調了納米材料的雙刃性。
    本書沒有像其他納米材料類書籍一樣按照納米材料的種類來編寫,而是在作者總結和歸納的基礎上 將其共性問題抽提出來進行闡述和討論,使讀者納米材料的物理基礎理論研究進展有了更深入地了解。
    本書不僅能夠給從事納米材料研究的科研、技術人員以參考,而且能夠拓寬相關專業高年級本科生和研究生的學術視野。

作者介紹
張邦維|譯者:張恆//譚肇升//吳力軍//孟慶平

目錄
Foreword
Preface
Translator』s Preface
Preface to the English Version of 「Physical Fundamentals of Nanomaterials」
Acknowledgment and Authorization Details for Figures Used in the Book
CHAPTER 1 Introduction
  1.1  Nanomaterial Age
  1.2  What Are Nanomaterials
  1.3  History of Nanomaterial Development
    1.3.1  Germination Stage
    1.3.2  Preliminary Preparation Stage
    1.3.3  Rapid-Development Stage
    1.3.4  Industrial and Commercial Application Stage
  1.4  Importance of Nanomaterials
    1.4.1  Nanotechnology Programs of Leading Countries
    1.4.2  Nanotechnology Investment Among Leading Countries
    1.4.3  Analysis of the Importance of Nanotechnology
  1.5  Potential Problems of Nanomaterials
  1.6  Purpose of This Book: Fundamentals of Nanomaterial Physics
References
CHAPTER 2 Principles, Methods, Formation Mechanisms, and Structures of Nanomaterials Prepared via Gas-Phase Processes
  2.1  Principles of Physical Vapor Deposition
    2.1.1  Nucleation
    2.1.2  Growth
  2.2  Physical Vapor Deposition
    2.2.1  Electrical Resistance Heating Method
    2.2.2  Plasma Heating Method
    2.2.3  Laser Heating Method
  2.3  Chemical Vapor Deposition
    2.3.1  CVD Thermodynamics and Kinetics
    2.3.2  CVD Process Technology for Nanomaterial Preparation
    2.3.3  Catalytic CVD and CNT Preparation
  2.4  Filtered Cathodic Vacuum Arc Deposition
    2.4.1  Magnetic Filtration and FCVA Devices
    2.4.2  Examples of Filtered Cathodic Vacuum Deposition Films
  2.5  Comparison of Various Vapor Deposition Methods
References
CHAPTER 3 Principles, Methods, Formation Mechanisms, and Structures of Nanomaterials Prepared in the Liquid Phase
  3.1  Precipitation
    3.1.1  Coprecipitation and Fractional Precipitation
    3.1.2  Homogeneous Precipitation
  3.2  SolGel Method
    3.2.1  SolGel Procedure
    3.2.2  SolGel Reaction Mechanism
    3.2.3  Examples of SolGel Prepared Nanomaterials
  3.3  Chemical-Reduction Method
    3.3.1  Chemical-Reduction Preparation Technology
    3.3.2  Chemical-Reduction Reaction Mechanisms
    3.3.3  Preparation of Crystalline Nanomaterials via Chemical Reduction
  3.4  Comparison of Various Liquid Nanoparticle Preparation Methods

References
CHAPTER 4 Principles, Methods, Formation Mechanisms, and Structures of Nanomaterials Prepared via Solid-Phase Syntheses
  4.1  Mechanical Alloying
    4.1.1  Ball Mill
    4.1.2  MA Process Parameters
    4.1.3  MA-Prepared Nanopowder Formation Mechanisms
    4.1.4  Examples of Nanomaterials Synthesized via Mechanical Alloying
  4.2  Nanomaterial Preparation via Solid-Phase Methods
    4.2.1  Preparation of Bulk Nanomaterials via Solid-Phase Methods
    4.2.2  Amorphous Nanocrystallization
  4.3  Microstructures and Defects in Body Nanomaterials
    4.3.1  Grains in Body Nanomaterials
    4.3.2  Grain Boundaries in Body Nanomaterials
    4.3.3  Defects in Body Nanomaterials
References
CHAPTER 5 Principles, Methods, Formation Mechanisms, and Structures of Nanomaterials Prepared via Self-Assembly
  5.1  What Is Self-Assembly
  5.2  Types and Common Characteristics of Self-Assembly Mechanisms
    5.2.1  Types of Self-Assembly Mechanisms
    5.2.2  Common Characteristics of Self-Assembly
  5.3  Nanomaterial Fabrication via Self-Assembly
    5.3.1  Metal and Alloy Components
    5.3.2  Semiconductor Components
    5.3.3  Polymer Supermolecules and Biomolecular Components
  5.4  Template-Based Nanomaterial Fabrication
    5.4.1  Fabrication of Ordered Nanohole Templates
    5.4.2  Metal and Alloy Nanomaterials Prepared via Templated Self-Assembly
    5.4.3  Preparation of Semiconductor Nanomaterials via Self-Assembly
References
CHAPTER 6 Mechanical Properties of Nanomaterials
  6.1  Elasticity of Nanomaterials
  6.2  Strengths, Hardnesses and HallPetch Relationships in Nanomaterials
    6.2.1  Experimental Strength Data
    6.2.2  The Relationship Between Hardness and HallPetch Effects
  6.3  Nanomaterial Fracture and Fatigue
    6.3.1  Facture Strength and Toughness
    6.3.2  Fatigue
  6.4  Nanomaterial Creep and Superplasticity
    6.4.1  Creep
    6.4.2  Superplasticity
  6.5  Deformation and Fracture Mechanisms in Nanomaterials
    6.5.1  Nanomaterial Deformation Mechanisms
    6.5.2  Nanomaterial Fracture Mechanisms
References
CHAPTER 7 Thermal Properties of Nanomaterials
  7.1  Melting Point
    7.1.1  Elevated and Lowered Nanomaterial Melting Points
    7.1.2  Nanomaterial Melting Point Simulations
    7.1.3  Melting Enthalpy and Entropy in Nanomaterials
    7.1.4  Nanoalloy Phase Diagrams

  7.2  Thermal Conductivity
    7.2.1  Experimental Measurement of Nanomaterial Thermal Conductivities
    7.2.2  Theoretical Simulation of Nanomaterial Thermal Conductivity
  7.3  Specific Heat
    7.3.1  Debye Temperatures of Nanomaterials
    7.3.2  Specific Heats of Nanomaterials
  7.4  Thermal Expansion
References
CHAPTER 8 Optical Properties of Nanomaterials
  8.1  Light Absorption of Nanomaterials
    8.1.1  Instances of Light Absorption Nanomaterials
    8.1.2  Red- and Blueshift Phenomenon of Light Absorption
  8.2  Colors of Nanomaterials
  8.3  Light-Emission of Nanomaterials
    8.3.1  Quantum Yield
    8.3.2  Photoluminescence of Nanomaterials
    8.3.3  Electroluminescence of Nanomaterials
  8.4  Magnetooptical Properties of Nanomaterials
    8.4.1  Magnetooptical Effect
    8.4.2  Magnetooptical Effect of Metal Nanoparticles and Nanoparticle Films
    8.4.3  Magnetooptical Effect of Oxide Nanoparticles
    8.4.4  Magnetooptical Effect of Composite Structure of Amorphous Magnetic Nanoparticles
References
CHAPTER 9 Electrical Properties of Nanometer Materials
  9.1  Resistivity of Nanomaterials
    9.1.1  Resistivity of Metal Nanomaterials
    9.1.2  Resistivity of Alloy Nanomaterials
    9.1.3  Resistivity of Semiconductor Nanomaterials
    9.1.4  Resistivity of Oxide Nanomaterials
  9.2  Theoretical Simulation of Resistivity for Nanomaterials
    9.2.1  FS and MS Resistivity Theory
    9.2.2  Theoretical Calculation of Resistivity of Metal Nanowires
    9.2.3  Empirical Formula for Nanomaterial Resistivity
  9.3  Thermoelectric Conversion Efficiency of Nanomaterials
    9.3.1  Thermoelectric Conversion Efficiency and Related Parameters
    9.3.2  Thermoelectric Conversion Efficiency of Nanomaterials
    9.3.3  Theoretical Calculations of Conversion Efficiency for Nanothermoelectric Materials
  9.4  Superconductivity of Nanomaterials
    9.4.1  Superconductivity of Nanoparticle
    9.4.2  Superconductivity of Nanofilms
    9.4.3  Nanowire Superconductivity
References
CHAPTER 10 Magnetic Properties of Nanomaterials
  10.1  Magnetic Moment of Nanometer Magnetic Materials
    10.1.1  Magnetic Moment of 3D Atomic Group Ferromagnetic Metals
    10.1.2  Magnetic Moment of 3D Ferromagnetic Clusters of Superlattice
    10.1.3  Magnetic Moments of Nonferromagnetic Three Metal Clusters
  10.2  Curie Temperature of Nanomagnetic Materials
    10.2.1  Reduction of Curie Temperature
    10.2.2  Curie Temperature of Superlattice

  10.3  Magnetization and Coercivity of Nanometer Magnetic Materials
    10.3.1  Magnetization
    10.3.2  Coercivity
  10.4  Magnetoresistance and Giant Magnetoresistance of Nanometer Magnetic Materials
    10.4.1  Magnetoresistance and Anisotropic Magnetoresistance
    10.4.2  Magnetoresistance of Nanometer Manganese Perovskite
    10.4.3  Giant Magnetoresistance
References
Index

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