Structural design and controllable preparation of the function-directed crystalline materials Maochun Hong, editor.
Hong, Maochun.
2023
QD905.2
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Title
Structural design and controllable preparation of the function-directed crystalline materials Maochun Hong, editor.
ISBN
9789819937684 (electronic bk.)
981993768X (electronic bk.)
9819937671
9789819937677
DOI
https://doi.org/10.1007/978-981-99-3768-4
Publication Details
Singapore : Springer, 2023.
Language
English
Description
1 online resource (115 p.).
Item Number
10.1007/978-981-99-3768-4 doi
Call Number
QD905.2
Dewey Decimal Classification
548
Summary
This book presents the findings of a major research program investigating structural design and controllable preparation of function-directed crystalline materials. The program was launched by the National Natural Science Foundation of China during the 11th Five-Year Plan period, which was started in October 2008 and concluded at the end of 2016. This book first summarizes the overall scientific objectives and the current state of the art of crystalline materials research in China and the international frontier. It also focuses on exploring the relationships between structures, compositions, and properties of crystalline materials and proposes new mechanisms and models for new materials exploration. In addition, it introduces a new functional-motif theory that can guide the development of crystalline materials with optical, electrical, and other composite functions and presents new research methods for the controlled synthesis and assembly of crystalline materials, and detection and characterization of functional motifs. Furthermore, practical applications for materials such as photoelectric conversion materials, nonlinear optical materials, laser and fluorescent crystal materials, and ferroelectric and microwave dielectric materials have been described. Given its scope, this book is of interest to researchers who work in crystalline materials. It also promotes the multidisciplinary collaboration among chemistry, materials science, and physics.
Note
4.4 First Anderson Localization in the Single-Crystal Electron System
Includes index.
Bibliography, etc. Note
References -- Major Research Achievements -- 1 Structural Designing and Modulation of Magnetic Functional Molecular Crystalline Materials -- 1.1 Ground-State Spin and Uniaxial Magnetic Anisotropy Modulation of Single-Molecule Magnets -- 1.2 Metal-Organic Single-Ion Magnets -- 1.3 Assembly Based on High-Performance Single-Ion Magnet Substrates -- 1.4 Nuclear Spin Strategy for Suppressing Magnetic Quantum Tunneling Effect -- 2 Design, Synthesis, and Performance of High-Performance Molecular Ferroelectrics -- 2.1 Molecular Ferroelectrics with High the Curie Temperature, Large Saturation Polarization
Access Note
Access limited to authorized users.
Source of Description
Online resource; title from PDF title page (SpringerLink, viewed December 11, 2023).
Added Author
Hong, Maochun.
Series
Reports of China's basic research.
Available in Other Form
Structural Design and Controllable Preparation of the Function-Directed Crystalline Materials
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Intro
Editorial Board
Preface to the Series
Preface
Contents
Contributors
Project Overview
1 Introduction
1.1 Overall Scientific Objectives
1.2 Overview of Program Implementation
1.3 Interdisciplinary Efforts
2 Research Circumstances
2.1 Overall Scientific Objectives
2.2 Key Scientific Issues
3 Significant Progress
Research in China and Abroad
1 Research Status and Development Trend
1.1 Research Status and Development Trend of Optoelectronic Functional Crystals
1.2 Research Status and Development Trend of Molecular Ferroelectrics

1.3 Research Status and Development Trend of Molecular Magnetics
1.4 Research Status and Development Trend of Superconducting Materials
1.5 Research Status and Development Trend of Thermoelectric Materials
2 Development Trends of Functional Crystalline Materials
2.1 Developments in Laser Crystals and Nonlinear Optical Crystals
2.2 Development Trend of Molecular Ferroelectrics
2.3 Development Trend of Molecular Magnets
2.4 Development Trend of Metal-Organic Framework Materials
2.5 Development Trend of Superconducting Materials
2.6 Trends in Thermoelectric Materials

2.2 Molecular Ferroelectrics with Large Piezoelectric Coefficients
2.3 Homochiral Molecular Ferroelectrics
2.4 Molecular Ferroelectrics with Semiconductor Properties
2.5 New Strategies for Precise Design of Molecular Ferroelectrics
2.6 Photoferroelectric Semiconductor Crystal Materials for Next-Generation Photoelectric Detection Technology
2.7 Discovery of Molecule-Based Ferroelectric Crystalline Materials with Fast Polarization Reversals
2.8 Discovery of Incommensurate Structure Modulated Molecular Ferroelectric Crystals
3 Laser Crystals and Nonlinear Optical Crystals

3.1 Research on the Structure-Property Relationships of Nonlinear Optical Crystals
3.2 Deep-Ultraviolet Nonlinear Optical New Crystals
3.3 Infrared Nonlinear Optical Crystal
3.4 Laser Crystals and Transparent Ceramics
4 New Electron-Doped Iron-Selenium-Based Superconductors
4.1 First Discovery of Electron-Doped Iron-Selenium-Based Superconductors
4.2 First Discovery of Molecular Intercalation Series of Iron-Selenium-Based High-Temperature Superconductors
4.3 True Composition and Structure of Superconducting Phases in the K-Fe-Se System

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