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Controlled Synthesis and Scanning Tunneling Microscopy Study of Graphene and Graphene-Based Heterostructures

This thesis focuses on the energy band engineering of graphene. It presents pioneering findings on the controlled growth of graphene and graphene-based heterostructures, as well as scanning tunneling microscopy/scanning tunneling spectroscopy (STM/STS) studies on their electronic structures. The the...

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Bibliographic Details
Main Author: Liu, Mengxi
Format: eBook
Language:English
Published: Singapore Springer Nature Singapore 2018, 2018
Edition:1st ed. 2018
Series:Springer Theses, Recognizing Outstanding Ph.D. Research
Subjects:
Nanochemistry
Surface And Interface And Thin Film
Materials—analysis
Thin Films
Surfaces, Interfaces And Thin Film
Nanotechnology
Surfaces (technology)
Characterization And Analytical Technique
Surfaces (physics)
Online Access:
Collection: Springer eBooks 2005- - Collection details see MPG.ReNa
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505 0 |a Introduction.-Controlled Growth of Graphene on Rh Substrates -- STM Study of Non-Bernal Stacked Bilayer Graphene -- Controlled Growth of in-plane h-BN-G Heterostructures -- Interfacial study of h-BN-G Heterostructures -- Summary and Outlook 
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653 |a Materials—Analysis 
653 |a Thin films 
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653 |a Nanotechnology 
653 |a Surfaces (Technology) 
653 |a Characterization and Analytical Technique 
653 |a Surfaces (Physics) 
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520 |a This thesis focuses on the energy band engineering of graphene. It presents pioneering findings on the controlled growth of graphene and graphene-based heterostructures, as well as scanning tunneling microscopy/scanning tunneling spectroscopy (STM/STS) studies on their electronic structures. The thesis primarily investigates two classes of graphene-based systems: (i) twisted bilayer graphene, which was synthesized on Rh substrates and manifests van Hove singularities near Fermi Level, and (ii) in-plane h-BN-G heterostructures, which were controllably synthesized in an ultrahigh vacuum chamber and demonstrate intriguing electronic properties on the interface. In short, the thesis offers revealing insights into the energy band engineering of graphene-based nanomaterials, which will greatly facilitate future graphene applications 

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