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Handbook of Graphene 2

Volume 2: Physics, Chemistry and Biology
Edited by Tobias Stauber
Copyright: 2019   |   Status: Published
ISBN: 9781119469599  |  Hardcover  |  
683 pages | 309 illustrations
Price: $275 USD
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One Line Description
This unique multidisciplinary 8-volume set focuses on the emerging issues concerning graphene materials and provides a shared platform for both researcher and industry.

Audience
This book is intended for researchers and graduate students in the field of advanced materials and graphene in particular, who are currently investigating the fundamental properties of this material and its applications in micro- and nanotechnologies.

Description
The Handbook of Graphene comprises a set of 8 individual volumes that brings an interdisciplinary perspective to accomplish a more detailed understanding of the interplay between the synthesis, structure, characterization, processing, applications and performance of the advanced graphene materials. The Handbook of Graphene comprises 140 chapters from world renowned experts.

Volume 2 is solely focused on selected topics in physics, chemistry, and biology and provides an overview of the multitude of different research directions that are currently being taken at the international level. Some of the important topics include but not limited to: Topological design of graphene; graphene at the metal-oxide interface: a new approach to modify the chemistry of supported metals; the combinatorial structure of graphene; Interacting electrons in graphene; computational determination of the properties of graphene nanoribbons; synthetic electric fields influence the non-stationary processes in graphene; interaction and manipulation of bi adatoms on monolayer epitaxial graphene; strain engineering: electromechanical properties of graphene; characteristic mechanical responses of graphene membranes; graphene and its derivatives as platform for Maldi-MS; characterization and dynamic manipulation of graphene by in situ transmission electron microscopy at atomic scale; peculiarities of quasi-particle spectra in graphene nanostructures; complex refractive index (ri) of graphene; fractional quantum hall effect in graphene: a topological approach; graphene plasmonic: switching applications; theoretical study and numerical modeling of graphene’s electromagnetic response; graphene-like anb8-n compounds on metals and semiconductors; lower dimensional materials; nature of graphene, its chemical structure, composites, synthesis, properties and applications; graphenebased nanomaterials in tissue engineering and regenerative medicine.

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Author / Editor Details
Tobias Stauber obtained his PhD in Theoretical Physics from the University of Heidelberg, Germany in 2002 in the group of Prof. F. Wegner on “Flow Equations for Hamiltonians”. He then continued with his postdoctoral studies at the Material Science Institute of Madrid (ICMM) of the Spanish National Research Council (CSIC), Spain with Prof. F. Guinea on studies related to graphene. He later was an Assistant Research Professor at the University of Minho, Portugal (2008/09) and at the University Autónoma of Madrid, Spain (2010/13). Since 2014, he is a tenured scientist at the ICMM, CSIC in Madrid. His research focus is on the electric and optical response of graphene and related two-dimensional materials. He is the co-author of 74 ISI-classified articles including 2 articles published in Science with more than 7800 citations and h-factor 28 (Web-of-Science of Dec. 2018). He further acts as co-editor forNew Journal of Physics and European Physical Journal B.

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Table of Contents
Preface
1 Topological Design of Graphene
Bo Ni, Teng Zhang, Jiaoyan Li, Xiaoyan Li and Huajian Gao
2 Graphene at the Metal–Oxide Interface: A New Approach to Modify the Chemistry of Supported Metals
Wen Luo and Spyridon Zafeiratos
3 The Combinatorial Structure of Graphene
J.E. Graver and E.J. Hartung
4 Interacting Electrons in Graphene
T. Stauber, P. Parida, M. Trushin, M. V. Ulybyshev, D. L. Boyda and J. Schliemann
5 Computational Determination of the Properties of Graphene Nanoribbons
Frank J. Owens
6 Synthetic Electric Fields Influence the Non-Stationary Processes in Graphene
N.E. Firsova and Yu. A. Firsov
7 Interaction and Manipulation of Bi Adatoms on Monolayer Epitaxial Graphene
Shu Hsuan Su, Shih Yang Lin, Jung Chun Andrew Huang and Min Fa Lin
8 Strain Engineering: Electromechanical Properties of Graphene
Shuze Zhu
9 Characteristic Mechanical Responses of Graphene Membranes
Young In Jhon
10 Graphene and Its Derivatives as Platforms for MALDI-MS
Hani Nasser Abdelhamid and Hui-Fen Wu
11 Characterization and Dynamic Manipulation of Graphene by In Situ Transmission Electron Microscopy at Atomic Scale
Chaolun Wang, Chen Luo and Xing Wu
12 Peculiarities of Quasi-Particle Spectra in Graphene Nanostructures
E.S. Syrkin, V.A. Sirenko, S.B. Feodosyev, I.A. Gospodarev and K.A. Minakova
13 Complex Refractive Index (RI) of Graphene
Sosan Cheon and Kenneth David Kihm
14 Fractional Quantum Hall Effect in Graphene, a Topological Approach
Janusz E. Jacak
15 Graphene Plasmonic: Switching Applications
Ali Farmani
16 Theoretical Study and Numerical Modeling of Graphene’s Electromagnetic Response
Amanatiadis Stamatios and Kantartzis Nikolaos
17 Graphene-Like ANB8 – N Compounds on Metals and Semiconductors
Sergei Yu. Davydov
18 Lower Dimensional Materials
B.G. Sidharth
19 Nature of Graphene, Its Chemical Structure, Composites, Synthesis, Properties, and Applications
Samuel Eshorame Sanni, Oluranti Agboola, Rotimi Emmanuel Sadiku and Moses Eterigho Emetere
20 Graphene-Based Nanomaterials in Tissue Engineering and Regenerative Medicine
Sorour Darvishi, Samad Ahadian and Houman Savoji
Index


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