H
Han Huang
Researcher at University of Queensland
Publications - 515
Citations - 15791
Han Huang is an academic researcher from University of Queensland. The author has contributed to research in topics: Grinding & Nanoindentation. The author has an hindex of 59, co-authored 464 publications receiving 12469 citations. Previous affiliations of Han Huang include Central South University & University of Western Australia.
Papers
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Journal ArticleDOI
Thermal Evaporation and Characterization of Sb2Se3 Thin Film for Substrate Sb2Se3/CdS Solar Cells
Xinsheng Liu,Jie Chen,Miao Luo,Meiying Leng,Zhe Xia,Ying Zhou,Sikai Qin,Ding-Jiang Xue,Lu Lv,Han Huang,Dongmei Niu,Jiang Tang +11 more
TL;DR: Sb2Se3 solar cells fabricated from thermal evaporation achieves an encouraging 2.1% solar conversion efficiency, and the optical absorption, photosensitivity, and band position of Sb2 Se3 film is studied.
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Spatially Resolved Electronic Structures of Atomically Precise Armchair Graphene Nanoribbons
Han Huang,Han Huang,Dacheng Wei,Jia-Tao Sun,Swee Liang Wong,Yuan Ping Feng,A. H. Castro Neto,Andrew Thyne Shen Wee +7 more
TL;DR: The surface-assisted bottom-up fabrication of atomically precise armchair graphene nanoribbons with predefined widths, namely 7, 14- and 21-AGNRs, on Ag(111) as well as their spatially resolved width-dependent electronic structures are presented.
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Bottom-up growth of epitaxial graphene on 6H-SiC(0001).
TL;DR: This detailed study of the transition from monolayer EG to trilayer EG reveals that EG adopts a bottom-up growth mechanism that causes the accumulation of carbon atoms to form a new graphene buffer layer at the EG/SiC interface.
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Evaluation of elastic modulus and hardness of thin films by nanoindentation
TL;DR: In this paper, simple equations are proposed for determining elastic modulus and hardness properties of thin films on substrates from nanoindentation experiments, and the formulation may be inverted to enable deconvolution of film properties from data on the film/substrate bilayers.
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Organic–Organic Heterojunction Interfaces: Effect of Molecular Orientation
TL;DR: In this paper, a feature article highlights recent progress in the understanding of interface energetics at small molecule OOH interfaces, focusing on the characterization and fabrication of OOH with well-defined molecular orientations using a combination of in situ low-temperature scanning tunneling microscopy, synchrotron-based high-resolution ultraviolet photoelectron spectroscopy and near-edge X-ray absorption fine structure measurements.