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《功能导向晶态材料的结构设计和可控制备》英文版是基于国家自然科学基金重大研究计划成果的重要研究成果。旨在揭示晶态材料宏观性质的功能基元及其在空间的集成方式,推动相关学科的发展。
内容简介
本书为“中国基础研究报告”丛书《功能导向晶态材料的结构设计和可控制备》英文版,基于国家自然科学基金重大研究计划“功能导向晶态材料的结构设计和可控制备”的研究成果写作完成。本重大研究计划以晶态材料为研究对象,以宏观性质(光、电、磁及其复合性能)与微观(电子、分子、聚集态)结构之间内在关系为主线,旨在揭示决定晶态材料宏观性质的功能基元及其在空间的集成方式,发展功能基元理论,深化对晶态材料功能特性和功能基元本质的认识;开展具有重大科学意义和应用前景的功能晶态材料的设计、合成、制备、表征和应用探索研究,为实现晶态材料功能导向的结构设计和可控制备提供新理论、新方法与新材料体系,推动相关学科的发展。
章节目录
版权信息
Reports of China’s Basic Research Editorial Board
Contributors
Preface to the Series
Preface
Chapter 1Project Overview
1.1 Introduction
1.1.1 Overall Arrangement
1.1.2 Overview of Program Implementation
1.1.3 Interdisciplinary Efforts
1.2 Research Circumstances
1.2.1 Overall Scientific Objectives
1.2.2 Key Scientific Issues
1.3 Significant Progress
Chapter 2Research in China and Abroad
2.1 Research Status and Development Trend
2.1.1 Research Status and Development Trend of Optoelectronic Functional Crystals
2.1.2 Research Status and Development Trend of Molecular Ferroelectrics
2.1.3 Research Status and Development Trend of Molecular Magnetics
2.1.4 Research Status and Development Trend of Superconducting Materials
2.1.5 Research Status and Development Trend of Thermoelectric Materials
2.2 Development Trends of Functional Crystalline Materials
2.2.1 Developments in Laser Crystals and Nonlinear Optical Crystals
2.2.2 Development Trend of Molecular Ferroelectrics
2.2.3 Development Trend of Molecular Magnets
2.2.4 Development Trend of Metal-Organic Framework Materials
2.2.5 Development Trend of Superconducting Materials
2.2.6 Trends in Thermoelectric Materials
Chapter 3Major Research Achievements
3.1 Structural Designing and Modulation of Magnetic Functional Molecular Crystalline Materials
3.1.1 Ground-State Spin and Uniaxial Magnetic Anisotropy Modulation of Single-Molecule Magnets
3.1.2 Metal-Organic Single-Ion Magnets
3.1.3 Assembly Based on High-Performance Single-Ion Magnet Substrates
3.1.4 Nuclear Spin Strategy for Suppressing Magnetic Quantum Tunneling Effect
3.2 Design, Synthesis, and Performance of High-Performance Molecular Ferroelectrics
3.2.1 Molecular Ferroelectrics with High Curie Temperature, Large Saturation Polarization
3.2.2 Molecular Ferroelectrics with Large Piezoelectric Coefficients
3.2.3 Homochiral Molecular Ferroelectrics
3.2.4 Molecular Ferroelectrics with Semiconductor Properties
3.2.5 New Strategies for Precise Design of Molecular Ferroelectrics
3.2.6 Photoferroelectric Semiconductor Crystalline Materials for Next-Generation Photoelectric Detection Technology
3.2.7 Discovery of Molecule-Based Ferroelectric Crystalline Materials with Fast Polarization Reversals
3.2.8 Discovery of Incommensurate Structure Modulated Molecular Ferroelectric Crystals
3.3 Laser Crystals and Nonlinear Optical Crystals
3.3.1 Research on the Structure-Property Relationships of Nonlinear Optical Crystals
3.3.2 New Deep-Ultraviolet Nonlinear Optical Crystals
3.3.3 Infrared Nonlinear Optical Crystal
3.3.4 Laser Crystals and Transparent Ceramics
3.4 New Electron-Doped Iron-Selenium-Based Superconductors
3.4.1 First Discovery of Electron-Doped Iron-Selenium-Based Superconductors
3.4.2 First Discovery of Molecular Intercalation Series of Iron-Selenium-Based High-Temperature Superconductors
3.4.3 True Composition and Structure of Superconducting Phases in the K-Fe-Se System
3.4.4 First Anderson Localization in the Single-Crystal Electron System
3.4.5 Regulation of Superconductivity in Thin-Layered Iron-Selenium (FeSe) Single-Crystals
3.5 Other Novel Crystalline Materials
3.5.1 Metal-Organic Framework Isoporous Materials
3.5.2 2D Crystalline Materials
Chapter 4Outlook
4.1 Strategic Needs
4.2 Conceptions and Suggestions
References
Index
功能导向晶态材料的结构设计和可控制备是2022年由浙江大学出版社出版,作者功能导向晶态材料的结构设计和可控制备项目。
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