InTech. 2011. 194 p.
В книге показано современное состояние дел в производстве графеновых электроматериалов. Особое внимание уделено работам Гейма и Новоселова (лауреатов Нобелевской премии по физике 2010 г). Книга предназначена для специалистов физиков и химиков занимающихся исследованиями в области технологии твердого тела и полупроводников.
Graphene, discovered in 2004 by A. K. Geim and K. S. Novoselov, is an excellent
electronic material, and has been considered as a promising candidate for the postsilicon
age. It has enormous potential in the electronic device community, for
example, field-effect transistor, transparent electrode, etc. Despite intense interest
and remarkably rapid progress in the field of graphene-related research, there is still
a long way to go for the widespread implementation of graphene. It is primarily due
to the difficulty of reliably producing high quality samples, especially in a scalable
fashion, and of controllably tuning the bandgap of graphene. This book provides
some solutions to the above-mentioned problems, and is divided into two parts. The
first part discusses the synthesis and characterization of graphene, and the second
part deals with the properties and applications of graphene.
This book is a collection of contributions made by many outstanding experts in this
field, and their efforts and time should be greatly appreciated. Also, I sincerely
thank the efficient and careful editing by Ms. Iva Simcic.
Research on graphene is a fast developing field, with new concepts and applications
appearing at an incredible rate. It is impossible to embody all the information
related to this subject in a single collection, and hopefully it could be of any help to
people who are interested in this field.
Contents
Preface
Self-Standing Graphene Sheets Prepared with Chemical Vapor Deposition and Chemical Etching
Nucleation and Vertical Growth of Nano-Graphene Sheets
Synthesis of Aqueous Dispersion of Graphenes via Reduction of Graphite Oxide in the Solution of Conductive Polymer
Supercritical Fluid Processing of Graphene and Graphene Oxide
Graphene Synthesis, Catalysis with Transition Metals and Their Interactions by Laser Photolysis
Properties and Applications of Graphene
Complex WKB Approximations in Graphene Electron-Hole Waveguides in Magnetic Field
Atomic Layer Deposition of High-k Oxides on Graphene
Experimental Study of the Intrinsic and Extrinsic Transport Properties of Graphite and Multigraphene Samples
Electronic Transport Properties of Few-Layer Graphene Materials
Large Scale Graphene by Chemical Vapor Deposition: Synthesis, Characterization and Applications
В книге показано современное состояние дел в производстве графеновых электроматериалов. Особое внимание уделено работам Гейма и Новоселова (лауреатов Нобелевской премии по физике 2010 г). Книга предназначена для специалистов физиков и химиков занимающихся исследованиями в области технологии твердого тела и полупроводников.
Graphene, discovered in 2004 by A. K. Geim and K. S. Novoselov, is an excellent
electronic material, and has been considered as a promising candidate for the postsilicon
age. It has enormous potential in the electronic device community, for
example, field-effect transistor, transparent electrode, etc. Despite intense interest
and remarkably rapid progress in the field of graphene-related research, there is still
a long way to go for the widespread implementation of graphene. It is primarily due
to the difficulty of reliably producing high quality samples, especially in a scalable
fashion, and of controllably tuning the bandgap of graphene. This book provides
some solutions to the above-mentioned problems, and is divided into two parts. The
first part discusses the synthesis and characterization of graphene, and the second
part deals with the properties and applications of graphene.
This book is a collection of contributions made by many outstanding experts in this
field, and their efforts and time should be greatly appreciated. Also, I sincerely
thank the efficient and careful editing by Ms. Iva Simcic.
Research on graphene is a fast developing field, with new concepts and applications
appearing at an incredible rate. It is impossible to embody all the information
related to this subject in a single collection, and hopefully it could be of any help to
people who are interested in this field.
Contents
Preface
Self-Standing Graphene Sheets Prepared with Chemical Vapor Deposition and Chemical Etching
Nucleation and Vertical Growth of Nano-Graphene Sheets
Synthesis of Aqueous Dispersion of Graphenes via Reduction of Graphite Oxide in the Solution of Conductive Polymer
Supercritical Fluid Processing of Graphene and Graphene Oxide
Graphene Synthesis, Catalysis with Transition Metals and Their Interactions by Laser Photolysis
Properties and Applications of Graphene
Complex WKB Approximations in Graphene Electron-Hole Waveguides in Magnetic Field
Atomic Layer Deposition of High-k Oxides on Graphene
Experimental Study of the Intrinsic and Extrinsic Transport Properties of Graphite and Multigraphene Samples
Electronic Transport Properties of Few-Layer Graphene Materials
Large Scale Graphene by Chemical Vapor Deposition: Synthesis, Characterization and Applications