Qi Zhao
6 Papers
Qi Zhao is an academic researcher. The author has contributed to research in topics: Computer science & Handover. The author has co-authored 3 publications.
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Papers
DFT Calculations of Silver Atom Modified Tungsten Disulfide Monolayer as Promising Sensing Materials for Small Molecular Toxic Gases
TL;DR: Density functional theory calculations reveal the adsorption behavior of CO, NO2, and SO2 on silver-atom-modified tungsten disulfide monolayer as a sensing material. The adsorption energy, electron transfer, charge density difference, band structure, and work function are explored. NO2 exhibits the highest adsorption energy and substantial electron transfer. The adsorption of these gases induces a redistribution of electron density and a reduction in the band gap. Desorption properties indicate that Ag-WS2 can function at ambient temperatures for CO and SO2 detection, while higher temperatures are required for NO2 detection.
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Application of Ultrasonic Testing Method in Particle Detection of GIS Handover Test
TL;DR: In this article , the ultrasonic partial discharge detection method is applied to the GIS handover test through a case in which the internal particles are found through the Ultrasonic Partial Discharge Detection (UPDD) method.
1
CO and HCHO Sensing by Single Au Atom-Decorated WS2 Monolayer for Diagnosis of Thermal Aging Faults in the Dry-Type Reactor: A First-Principles Study
Qi Zhao,Y. Y. Man,Songyuan Li,Lin Li +3 more
TL;DR: The Au-WS2 monolayer is a promising sensing material for CO and HCHO detection in dry-type reactors. It exhibits high sensitivity and fast response time. The sensing responses are 58.7% and −74.4% for CO and HCHO, respectively.
1
Seizing the window of opportunity to mitigate the impact of climate change on the health of people in China
Wenjia Cai,Chi Zhang,Shihui Zhang,Siqi Ai,Yuqi Bai,Junzhe Bao,Nan Chang,Bin Chen,Huiqi Chen,Liangliang Cheng,Xueqin Cui,Hancheng Dai,Qian Di,Wei Dong,Wenxuan Dong,Dejing Dou,Weicheng Fan,Xing-Jun Fan,Xiaoyi Fang,Tong Gao,Yuan Gao,Yang Geng,Dabo Guan,Yafei Guo,Yixin Hu,Junyi Hua,Cunrui Huang,Hong Huang,Jianbin Huang,Qiaolei Jiang,Xiaopeng Jiang,Piyu Ke,Chuanxi Li,Ruiqi Li,Shuangli Li,Lu Liang,Borong Lin,Hualiang Lin,Huan Liu,Qiyong Liu,Xiaobo Liu,Xinyuan Liu,Yu-feng Liu,Zhao Liu,Zhu Liu,Shuhan Lou,Chenxi Lu,Yong Luo,Zhenyu Luo,Weiying Ma,Yanlin Niu,Chao Ren,Zengliang Ruan,Schöpp Wolfgang,Yuli Shan,Jing Su,Taochun Sun,Can Wang,Qiong Wang,Sanmei Wen,Yang Xie,Hui Xiong,Bing-She Xu,Meng Xu,Yu Yan,Jun Yang,Lianping Yang,Xiu Yang,Le Yu,Yujuan Yue,Yiping Zeng,Jing Zhang,Shaohui Zhang,Yaoxian Zhang,Zhongchen Zhang,Jiyao Zhao,Liangwei Zhao,Mengzhen Zhao,Qi Zhao,Zhe Zhao,Jingbo Zhou,Zhenghong Zhu,Margaret Chan Fung Fu-Chun,Peng Gong +83 more
A first-principles study into Pt-embedded NiS2 monolayer as an outstanding gas sensor upon CO and HCHO dry-type reactors
TL;DR: In this paper , the Pt-NiS2 monolayer is modelled through the replacement of a S atom by a Pt atom, and the formation energy is −0.57 eV, implying the exothermicity for Pt-emending on NiS2 surface.