C
Chendong Zhang
Researcher at Wuhan University
Publications - 47
Citations - 4115
Chendong Zhang is an academic researcher from Wuhan University. The author has contributed to research in topics: Heterojunction & Scanning tunneling microscope. The author has an hindex of 17, co-authored 36 publications receiving 3437 citations. Previous affiliations of Chendong Zhang include Chinese Academy of Sciences & University of Texas at Austin.
Papers
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Journal ArticleDOI
Electromagnetic interference shielding of graphene/epoxy composites
Jiajie Liang,Yan Wang,Yi Huang,Yanfeng Ma,Zunfeng Liu,Jinming Cai,Chendong Zhang,Hong-Jun Gao,Yongsheng Chen +8 more
TL;DR: In this paper, composites based on graphene-based sheets have been fabricated by incorporating solution-processable functionalized graphene into an epoxy matrix, and their electromagnetic interference (EMI) shielding studies were studied.
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Determination of band alignment in the single-layer MoS2/WSe2 heterojunction
Ming-Hui Chiu,Chendong Zhang,Hung-Wei Shiu,Chih Piao Chuu,Chang-Hsiao Chen,Chih Yuan S. Chang,Chia Hao Chen,Mei-Yin Chou,Mei-Yin Chou,Mei-Yin Chou,Chih-Kang Shih,Lain-Jong Li,Lain-Jong Li +12 more
TL;DR: In this paper, the authors measured the conduction and valance band offsets at the interface between two two-dimensional materials: molybdenum disulphide and tungsten diselenide.
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Interlayer couplings, Moiré patterns, and 2D electronic superlattices in MoS 2 /WSe 2 hetero-bilayers.
Chendong Zhang,Chih-Piao Chuu,Xibiao Ren,Ming-Yang Li,Lain-Jong Li,Lain-Jong Li,Chuanhong Jin,Mei-Yin Chou,Chih-Kang Shih +8 more
TL;DR: A periodic modulation of the local bandgap in the rotationally aligned MoS2/WSe2 bilayer creates a 2D electronic superlattice and quantitatively determine the influence of interlayer coupling on the electronic structure of the hetero-bilayer at different critical points.
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Direct imaging of the band profile in single layer ${\small MoS_2}$ on graphite: quasiparticle energy gap, metallic edge states and edge band bending
TL;DR: Using scanning tunneling microscopy and spectroscopy, the electronic structures of single layer MoS2 on graphite are probed and an exciton binding energy value is deduced that is lower than current theoretical predictions.
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Direct Imaging of Band Profile in Single Layer MoS2 on Graphite: Quasiparticle Energy Gap, Metallic Edge States, and Edge Band Bending
TL;DR: Using scanning tunneling microscopy and spectroscopy, a single-layer MoS2 on graphite was investigated in this article, where the apparent quasiparticle energy gap was measured to be 2.15 ± 0.06 eV at 77 K, albeit a higher second conduction band threshold at 0.2 eV above the apparent conduction bands minimum.