Click Here to Download: https://ouo.io/H6plqj Graphene Science Handbook: Electrical and Optical Properties Electrical and Optical Properties By: Mahmood Aliofkhazraei; Nasar Ali; William I. Milne; Cengiz S. Ozkan; Stanislaw Mitura; Juana L. Gerv Publisher: routledge Print ISBN: 9781466591318, 1466591315 eText ISBN: 9781466591325, 1466591323 Edition: 1st Copyright year: 2016 Format: PDF Available from $ 23.18 USD SKU 9781466591325R90 Discover the Unique Electron Transport Properties of Graphene The Graphene Science Handbook is a six-volume set that describes grapheneâs special structural, electrical, and chemical properties. The book considers how these properties can be used in different applications (including the development of batteries, fuel cells, photovoltaic cells, and supercapacitors based on graphene) and produced on a massive and global scale. Volume One: Fabrication Methods Volume Two: Nanostructure and Atomic Arrangement Volume Three: Electrical and Optical Properties Volume Four: Mechanical and Chemical Properties Volume Five: Size-Dependent Properties Volume Six: Applications and Industrialization This handbook describes the fabrication methods of graphene; the nanostructure and atomic arrangement of graphene; grapheneâs electrical and optical properties; the mechanical and chemical properties of graphene; the size effects in graphene, characterization, and applications based on size-affected properties; and the application and industrialization of graphene. Volume three is dedicated to grapheneâs electrical and optical properties and covers: Graphene and graphene nanoribbons for use in high-frequency transistors, energy-efficient electronics and photonic devices The interface of graphene/high-? dielectrics The strain-induced modifications of plasmons in graphene A possible advanced physical framework for treating graphenic structures Recent progresses in the electric lens based on graphene-like materials The thermal and thermoelectric transport properties of graphene A numerical method for simulating the electromagnetic field interaction with single-layer graphene and more
