Silicene-based layered materials : essential properties / Ming-Fa Lin [and seven others].

Format:

Book

Author/Creator:

Lin, Ming-Fa, author.

Series:

IOP Ebooks Series

Language:

English

Subjects (All):

Graphene.

Nanostructured materials.

Physical Description:

1 online resource (325 pages)

Edition:

First edition.

Place of Publication:

Bristol, England : IOP Publishing, [2020]

Summary:

This book explores in detail the most up-to-date research in silicene-related systems, including few-layer silicene, sliding bilayer silicene, adatom-doped silicene, atom substituted silicene and silicene with substrate.

Contents:

Intro

Foreword

Author biographies

Shih-Yang Lin

Hsin-Yi Liu

Duy Khanh Nguyen

Ngoc Thanh Thuy Tran

Hai Duong Pham

Shen-Lin Chang

Chiun-Yan Lin

Ming-Fa Lin

Chapter 1 Introduction

References

Chapter 2 The theoretical frameworks

2.1 The first-principles method

2.2 The generalized tight-binding model and others

Chapter 3 Experimental measurements

3.1 LEED and TEM

3.2 STM, STS, SP-STM and SP-STS

3.3 ARPES and SP-ARPES

3.4 SQUID

Chapter 4 Monolayer C-, Si-, Ge-, Sn- and Pb-based materials

4.1 The geometric, electronic and spin properties of monolayer group-IV materials

4.2 Significant differences between monolayer group-IV systems

Chapter 5 Stacking-configuration-enriched fundamental properties in bilayer silicenes

5.1 The geometric, electronic and magnetic properties of sliding bilayer silicenes

5.2 Significant differences between bilayer silicenes and graphenes

Chapter 6 Hydrogen-adsorbed silicene materials

6.1 Hydrogenated silicenes

6.2 Hydrogenated graphene

Chapter 7 Halogenated silicene systems

7.1 Introduction

7.2 Halogenated silicenes

7.2.1 Geometric structure

7.2.2 Electronic band structure

7.2.3 Spatial spin density

7.2.4 Spatial charge density

7.2.5 Density of states

7.3 Conclusion

Chapter 8 Sodium-, magnesium- and aluminum-doped silicene systems

8.1 Na adsorption

8.2 Mg adatoms

8.3 Al adatoms and the creation of diverse phenomena

Chapter 9 Carbon-, boron- and nitrogen-substituted silicene compounds

9.1 Carbon-substitution-enriched fundamental properties

9.2 Varied phenomena in B-, C- and N-substituted silicenes

9.3 Nitrogen-substituted silicene systems and the important differences between them.

9.4 Conclusion

Chapter 10 Silicon adsorption and substitution on graphene

10.1 Introduction

10.2 Silicon-adsorbed graphene systems

10.2.1 The geometric structure of Si-adsorbed graphene systems

10.2.2 The band structure of Si-adsorbed graphene systems

10.2.3 Spatial charge density of Si-adsorbed graphene

10.2.4 Density of states of Si-adsorbed graphene systems

10.3 Silicon-substituted graphene systems

10.3.1 The geometric structure of Si-substituted graphene systems

10.3.2 Electronic band structure of Si-substituted graphene systems

10.3.3 Spatial charge density of Si-substituted graphene

10.3.4 Density of states of Si-substituted graphene systems

10.4 Conclusion

Chapter 11 Silicene on Ag(111)

11.1 Si-adlayer-Ag(111)

11.2 The AB-bt bilayer silicene-Ag(111) compound

Chapter 12 Silicene-, germanene- and stanene-graphene composites

12.1 Si-graphene bilayer systems

12.2 Ge-graphene bilayer composites

12.3 Sn-graphene bilayer materials

Chapter 13 Concluding remarks

Chapter 14 Open issues and potential applications

Chapter 15 Problems

References.

Notes:

Description based on publisher supplied metadata and other sources.

Description based on print version record.

Includes bibliographical references.

ISBN:

9780750341417

0750341416

OCLC:

1429736374