CiNii Books - Fundamentals of quantum materials : a practical guide to synthesis and exploration

Author(s)

- Paglione, Johnpierre
- Butch, Nicholas P.
- Rodriguez, Efrain (Efrain E.)

Bibliographic Information

Fundamentals of quantum materials : a practical guide to synthesis and exploration

[edited by] Johnpierre Paglione, Nicholas P. Butch, Efrain Rodriguez

World Scientific, [2020]

Related Bibliography 1 items

Fundamentals of quantum materials : a practical guide to synthesis and exploration / [edited by] J. Paglione, N. P. Butch, E. E. Rodriguez
BC13617384

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Tokyo Institute of Technology Ookayama Library

434/P300870392

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Note

Includes bibliographical references and index

Summary: "Despite a long tradition of sophisticated, creative materials synthesis among quantum materials researchers, a sense of broader community has been lacking. In initiating the Fundamentals of Quantum Materials Winter School held annually at the University of Maryland, we wanted to bring together the next generation of growers to learn techniques and pointers directly from senior scientists, and it turns out that we were not alone. The enthusiasm from both students and teachers has been both gratifying and invigorating. Four schools later, we can confidently say that physicists, chemists, and materials scientists, experimentalists and theorists alike, all want to know how to make a good sample. With this in mind, we asked our lecturers to record their most important ideas and share their expertise with a broader audience. This resource is a compilation of fundamental and practical guides on the modern methods of materials synthesis utilized by these experts. We hope that you enjoy reading their essenti

Contents of Works

Introduction to the synthesis of quantum materials - some general guidelines and a few tricks
Chemical bonding and structural relationships in extended solids
Solution growth of intermetallic single crystals
Vapor transport growth of van der Waals magnets
Induction furnace heating for growth of intermetallic quantum materials
Hydrothermal synthesis and crystal growth
Floating zone crystal growth
High-throughput methods in superconductivity research
Engineering epitaxial superconductor-semiconductor heterostructures using molecular beam epitaxy
High pressure synthesis approaches to quantum materials
Future directions in quantum materials synthesis

Description and Table of Contents

Description

Despite a long tradition of sophisticated, creative materials synthesis among quantum materials researchers, a sense of broader community has been lacking. In initiating the Fundamentals of Quantum Materials Winter School held annually at the University of Maryland, we wanted to bring together the next generation of growers to learn techniques and pointers directly from senior scientists, and it turns out that we were not alone. The enthusiasm from both students and teachers has been both gratifying and invigorating. Four schools later, we can confidently say that physicists, chemists, and materials scientists, experimentalists and theorists alike, all want to know how to make a good sample. With this in mind, we asked our lecturers to record their most important ideas and share their expertise with a broader audience. This resource is a compilation of fundamental and practical guides on the modern methods of materials synthesis utilized by these experts. We hope that you enjoy reading their essential guidance and state-of-the-art techniques as you explore the Fundamentals of Quantum Materials.

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