The first basic principle of crystal growth

Introduction to Chapter 1

Basic concept of 1. 1 crystal

Structural characteristics of 1. 1. 1

The crystal structure and lattice are 1. 1.2.

1. 1.3 crystal orientation and crystal plane

Overview of crystal structure defects of 1. 1.4

1.2 crystal material

1.2. 1 crystal structure of common crystal materials

1.2.2 crystal materials classified by function

Development of 1.3 crystal growth technology

1.4 technical basis of crystal growth and its connection with other disciplines

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Chapter II Thermodynamic Principles of Crystal Growth

2. Phase and Thermodynamic Description of1Crystal Growth Process

2. 1. 1 Structure and thermodynamic description of gas

2. Structure and thermodynamic description of1.2 liquid

2. Structure and thermodynamic parameters of1.3 solid

2. 1.4 phase interface and its thermodynamic analysis

2. Thermodynamic conditions of1.5 crystal growth

2.2 Thermodynamic principle of single crystal growth

Thermodynamic equilibrium during crystal growth

2.2.2 Thermodynamic conditions and driving forces of liquid and gas phase growth

2.2.3 Thermodynamic conditions of solid recrystallization

2.3 Thermodynamic principle of crystal growth in binary system

2.3. Chemical position in1binary alloy

2.3.2 Liquid-solid interface equilibrium and solute segregation

2.3.3 gas-liquid and gas-solid equilibrium

2.4 Thermodynamic Analysis of Multicomponent Crystal Growth

2.4. 1 free energy of multicomponent system

2.4.2 Thermodynamic equilibrium conditions of multicomponent crystallization process

2.4.3 Application of phase diagram calculation technology

2.5 Thermodynamic principle of compound crystal growth

2.5. Thermodynamic analysis of1compound decomposition and synthesis process.

2.5.2 Simplified treatment of complex binary and multicomponent compound systems

2.5.3 Non-stoichiometric composition deviation and crystal structure defects of compound crystals

2.5.4 Short programs and related compounds in melt

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The third chapter is the dynamic principle of crystal growth.

3. Microstructure of1crystal interface

3. 1. 1 Classical model of crystal interface structure

3. Monte Carlo (MC) Simulation of Interface Structure of1.2

3.2 Atomic Migration Process and Growth Rate on Crystal Interface

3.3 Internal morphology of crystal growth

3.3. Thermodynamic analysis of1crystal growth morphology

3.3.2 Dynamic Description of Crystal Growth Morphology

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The fourth chapter is the formation principle of actual crystal growth morphology.

4. 1 Driving Force of Crystal Growth and Instability of Plane Crystal Interface

4.2 Formation conditions and growth morphology of dendrites

4.3 Growth of Dendritic Array

4.3. 1 line-finding model

Kurz-Fisher model

4.3.3 Lou-Hunt numerical model

4.4 Forced growth morphology of strongly anisotropic crystals

4.5 Multi-stage coordinated growth

4.5. 1 sub * * crystal growth

crystal growth

Eccentric growth

Peritectic growth

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Chapter 5 Nucleation principle of crystal growth process

5. 1 homogeneous nucleation theory

5. 1. 1 Homogeneous nucleation theory in melt

5. 1.2 Uniform nucleation in gas phase and solid phase

5. 1.3 Development of Homogeneous Nucleation Theory

5.2 Heterogeneous nucleation

Basic principle of heterogeneous nucleation

5.2.2 Nucleation during Heteroepitaxial Growth

5.3 Nucleation during crystallization of multicomponent multiphase alloys

5.3. 1 Nucleation in Multicomponent Media

5.3.2 Analysis of heterogeneous nucleation process

5.4 Nucleation under Special Conditions

Nucleation in +0 solution

Electrochemical nucleation

5.4.3 Nucleation in the Process of Supercritical Liquid Crystallization

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The second chapter is the technical basis of crystal growth.

Chapter VI Transmission during Crystal Growth

6. 1 mass transfer principle in crystal growth process

6. 1. 1 basic equation of solute diffusion

6. Solution conditions and analysis methods of1.2 diffusion process

6. The essence of1.3 diffusion coefficient and its treatment method

6. Diffusion characteristics of1.4 crystal growth process

6. 1.5 Multicomponent Co-diffusion

6. 1.6 Diffusion under external field

6.2 Heat transfer principle in crystal growth process

Thermal conductivity during crystal growth

6.2.2 Radiation heat transfer during crystal growth

6.2.3 Convective heat transfer and interfacial heat transfer during crystal growth

6.2.4 Measurement and control methods and techniques of temperature field during crystal growth.

6.3 Liquid Flow during Crystal Growth

6.3. 1 Traffic reason and classification

Viscosity of fluid

6.3.3 Fluid flow control equation

6.3.4 Solution conditions and analysis methods of fluid flow process

6.3.5 Concepts of Laminar Flow and Turbulence and Analysis of Typical Laminar Flow Process

6.3.6 Double diffusion convection

6.3.7 marangoni convection

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Chapter VII Chemical Problems in the Process of Crystal Growth

7. 1 Chemical principles related to crystal growth process

7. 1. 1 Chemical reaction in the process of crystal growth

7. 1.2 Main chemical properties and laws of substances

7. 1.3 principle of chemical reaction kinetics

7. 1.4 Thermal Effect of Chemical Reaction Process

7. 1.5 Size Effect of Chemical Reaction

7. 1.6 Other chemical problems in the crystal growth process

7.2 Purification of raw materials

7.2. 1 gasification-condensation method

Extraction method

Electrolytic purification method

Zone melting method

7.3 Synthesis principle of crystal growth raw materials

7.3. 1 Direct Reaction Synthesis of Melt

7.3.2 Reaction Synthesis in Solution

7.3.3 Gas Phase Reaction Synthesis

Solid-state reactive synthesis

Self-propagating synthesis

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Chapter 8 the role of physical field in the crystal growth process

8. 1 principle of pressure action during crystal growth

8. 1. 1 pressure in gravity field

8. 1.2 Characteristics and influence of microgravity field

8. 1.3 Characteristics and influence of supergravity field

8. 1.4 High pressure technology in crystal growth process

8.2 Stress analysis during crystal growth

8.2. 1 Basic equation for stress field calculation

Stress field analysis method

8.2.3 Plastic deformation under stress

Stress in thin film materials

8.3 Principle of electric field in crystal growth process

Conductive characteristics

Dielectric properties of materials

8.3.3 Electrical principles related to crystal growth

8.3.4 Application example of electric field in crystal growth process

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The third article crystal growth technology

Chapter 9 Crystal Growth by Melt Method (1)-Bridgman Method and Its Similar Laws

Chapter 10 Crystal growth by melt method (1)-CZ method and other melt growth methods.

Chapter 1 1 Solution Crystal Growth

Chapter 12 vapor-phase crystal growth method

Analysis and Characterization of Crystal Defects

Chapter 13 Formation and control of crystal defects

14 characterization of crystal structure and properties

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