Titlebook: Controlled Synthesis and Scanning Tunneling Microscopy Study of Graphene and Graphene-Based Heterost; Mengxi Liu Book 2018 Springer Nature

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

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Controllable Synthesis of Graphene on Rh,eal that the low-energy band structure of bilayer graphene is extremely sensitive to the stacking order. Two low-energy VHSs, which originate from the two saddle points in the band structure, were observed in the twisted graphene bilayer as two pronounced peaks in the DOS. The VHSs will induce novel

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Controlled Synthesis of in-Plane h-BN-G Heterostructures,y, antiferromagnetic and half-semimetallic characteristics. In the first section of this chapter, I will give a brief review of the novel properties and the reported synthesis methods of h-BN-G heterostructures. The process of preparation of h-BN-G in-plane heterostructures is maturing, but some imp

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Atomic and Electronic Structures of h-BN-G Interfaces,ct that how to form particular-type boundaries during growth process and how to identify the atomic linking type. This chapter mainly introduces the study of interface type and interfacial electron state of h-BN-G heterostructures.

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Summary,e cooling rate after growth, we can controllably obtain monolayer graphene, bilayer graphene and multilayer graphene on Rh foils. Wrinkles can be observed on graphene synthesized on Rh foils, which is due to the mismatch of coefficient of thermal expansion between graphene and Rh substrates. The hei

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https://doi.org/10.1007/978-981-10-5181-4Scanning Tunneling Microscopy; Graphene; h-BN; Controlled Growth; Heterostructure; Band Engineering

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978-981-13-5338-3Springer Nature Singapore Pte Ltd. 2018