Graphite edge controlled registration of monolayer MoS2 crystal orientation | Zendy

Chun-I Lu | Zendy; C. J. Butler | Zendy; JingKai Huang | Zendy; ChengRong Hsing | Zendy; HungHsiang Yang | Zendy; Yu-Hsun Chu | Zendy; Chi-Hung Luo | Zendy; Yung-Che Sun | Zendy; Shih-Hao Hsu | Zendy; Kui-Hong Ou Yang | Zendy; ChingMing Wei | Zendy; LainJong Li | Zendy; MinnTsong Lin | Zendy

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Graphite edge controlled registration of monolayer MoS2 crystal orientation

Author(s) -

Chun-I Lu,

C. J. Butler,

JingKai Huang,

ChengRong Hsing,

HungHsiang Yang,

Yu-Hsun Chu,

Chi-Hung Luo,

Yung-Che Sun,

Shih-Hao Hsu,

Kui-Hong Ou Yang,

ChingMing Wei,

LainJong Li,

MinnTsong Lin

Publication year - 2015

Publication title -

applied physics letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.182

H-Index - 442

eISSN - 1077-3118

pISSN - 0003-6951

DOI - 10.1063/1.4919923

Subject(s) - monolayer , scanning tunneling microscope , graphite , chemical vapor deposition , materials science , perpendicular , hexagonal lattice , condensed matter physics , transition metal , semiconductor , enhanced data rates for gsm evolution , lattice (music) , graphene , crystal (programming language) , chemical physics , crystallography , geometry , nanotechnology , optoelectronics , chemistry , composite material , physics , telecommunications , biochemistry , mathematics , antiferromagnetism , computer science , acoustics , programming language , catalysis

Transition metal dichalcogenides such as the semiconductor MoS2 are a class of two-dimensional crystals. The surface morphology and quality of MoS2 grown by chemical vapor deposition are examined using atomic force and scanning tunneling microscopy techniques. By analyzing the moire patterns from several triangular MoS2 islands, we find that there exist at least five different superstructures and that the relative rotational angles between the MoS2 adlayer and graphite substrate lattices are typically less than 3°. We conclude that since MoS2 grows at graphite step-edges, it is the edge structure which controls the orientation of the islands, with those growing from zig-zag (or armchair) edges tending to orient with one lattice vector parallel (perpendicular) to the step-edge.

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