C
Chao Zhang
Researcher at Beihang University
Publications - 4347
Citations - 118320
Chao Zhang is an academic researcher from Beihang University. The author has contributed to research in topics: Medicine & Computer science. The author has an hindex of 127, co-authored 3119 publications receiving 84711 citations. Previous affiliations of Chao Zhang include West Virginia University & University of Oklahoma.
Papers
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Journal ArticleDOI
Bioinspired Polydopamine/Polyzwitterion Coatings for Underwater Anti-Oil and -Freezing Surfaces.
Meng-Qi Ma,Meng-Qi Ma,Chao Zhang,Chao Zhang,Tingting Chen,Tingting Chen,Jing Yang,Jing Yang,Jianjun Wang,Jianjun Wang,Jian Ji,Jian Ji,Zhi-Kang Xu,Zhi-Kang Xu +13 more
TL;DR: A one-step strategy to facilely achieve the bioinspired polydopamine/polyzwitterion (PDA/PZI) coatings on various substrates is reported, demonstrating that the one- step strategy is a facile approach to design and exploit the bio inspired PDA/ PZI coatings for diverse applications.
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Optimization of cutting parameters considering tool wear conditions in low-carbon manufacturing environment
TL;DR: A multi-objective cutting parameters optimization model is established based on the above production indexes to determine the optimal cutting parameters and tools and a modified NSGA-II algorithm is used to resolve the model.
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A New Nb28 Cluster Based on Tungstophosphate, [{Nb4O6(OH)4}{Nb6P2W12O61}4]36–
TL;DR: The preliminary results revealed that 2a could efficiently inhibit the growth of the human breast cancer MCF-7 cells and the activity of 2a is significantly better than those of the simple reagents.
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Role of Mo on tribological properties of atmospheric plasma-sprayed Mo-NiCrBSi composite coatings under dry and oil-lubricated conditions
TL;DR: In this paper, the role of molybdenum (Mo) on tribological performance under both dry and oil-lubricated conditions was investigated, and it was revealed that MoO 2 and MoS 2 tribo-films were generated in the friction process under dry condition and oil lubricated condition, respectively.
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Efficient Excitation of Multiple Plasmonic Modes on Three-Dimensional Graphene: An Unexplored Dimension
Jingchao Song,Lei Zhang,Yunzhou Xue,Qing Yang Steve Wu,Fang Xia,Chao Zhang,Yu Lin Zhong,Yupeng Zhang,Jinghua Teng,Malin Premaratne,Cheng-Wei Qiu,Qiaoliang Bao +11 more
TL;DR: In this article, the authors proposed a 3D graphene structure for high-order plasmonic resonance and found that despite the influence of geometry and material parameters on resonance, the excitation efficiency of high order modes is highly dependent on the graphene on the sidewall of pillars.