欢迎感兴趣的本科生、硕士、博士研究生加盟合作从事相关科研工作!
个人简介及科研方向:
卢红兵,教授,博士生导师。博士毕业于武汉大学,德国Leibniz Institute of Surface Modification (IOM)研究所博士后。2015年获批陕西省青年科技新星荣誉称号,主持4项国家自然科学基金项目(1项青年基金+3项面上基金)和3项省部级项目。从事低维纳米结构的制备及物性方面的研究工作,并致力于探索其在气敏、柔性传感、光催化、信息存储及太阳能电池等领域的应用。截至2023年已在国际学术刊物上发表被SCI收录的论文88篇,共被SCI他引超过3500次;其中发表第一作者SCI文章/通讯作者48篇,分别发表在Advanced Functional Materials (IF=19.0)、Chemical Engineering Journal (IF= 15.1)、Sensors and Actuators B: Chemical、Applied Physics Letters等著名学术期刊上。指导研究生获得“自强之星标兵”、“陕西省优秀毕业生”、“校优秀毕业生”、“研究生国家奖学金”、“研究生标兵”等众多荣誉。
目前感兴趣的研究方向如下:
(1) 气敏/湿敏传感器研究;柔性传感器;
(2) 纳米半导体材料的制备,表征,改性及物理性能;
(3) 相变及阻变存储材料研究;
(4) 低维纳米材料的应用研究:如光催化,太阳能电池等。
工作经历:
2009-2014 湖北大学 工作
2014-至今 威廉希尔 教授
承担项目:
(1)国家自然科学基金面上项目,(12374186,2014.01-2027.12), 53万,主持.
(2)国家自然科学基金面上项目,(12074236,2021.01-2024.12), 62万,主持.
(3)国家自然科学基金面上项目,(11574189,2016.01-2019.12), 84万,主持.
(4)国家自然科学基金青年项目,(11105047,2012.01-2014.12), 25万,主持.
(5)陕西省自然科学面上项目, (2019JM-102,2019.01-2020.12), 3万,主持.
(6)陕西省科技新星项目,(2016KJXX-15,2016.05-2018.05),10万,主持.
(7)教育部留学回国人员科研启动基金,(2015.01-2016.12), 3万,主持.
(8)中央高校优秀青年创新团队项目, (GK202301001,2023.01-2025.12), 25万,主持.
(9)中央高校重点项目, (GK202002003,2020.01-2022.12), 18.4万,主持.
(10)中央高校重点项目,(GK201602006,2016.03-2018.12), 20万,主持.
荣誉奖励:
2015年度 陕西省青年科技新星荣誉称号 (省部级)
2022年度 威廉希尔优秀导学团队荣誉称号
科研论文(部分一作/通讯作者):
[29] Hu Zhao, Wanyin Ge*, Xi Li, Ting Zhao, Zili Luo, Ruiqi Wang, Siyao Wang, Shifang Shang, Qian Zhang, Huating DiWu, Hongbing Lu*, Jinniu Zhang, Jia Liu, High NO2 sensing for room temperature: A multifunctional hydrophobic sensitive layer with compatible flexible and ultraviolet activated, Chemical Engineering Journal, 474 (2023) 145915. (一区TOP, IF=15.1)
[28]Yumeng Liu; Qingfei Liang; Pingyang Zheng; Gang Li; Jia Liu; Jinniu Zhang; Jianzhi Gao; Hongbing Lu*; Cu3N-derived hydrophobic porous CuO hollow nanospheres for NO2 detection at room temperature, Sensors and Actuators B: Chemical, 2023, 392: 134058. (一区TOP,IF=9.221)
[27]Ruyi Yang; Jinniu Zhang*; Jia Liu; Gang Li; Yu Qiao; Xinyi Zhang; Jianzhi Gao; Hongbing Lu*;PANI/Ti3C2Tx composite nanofiber-based flexible conductometric sensor or the detection of NH3 at room temperature, Sensors and Actuators B: Chemical, 2023, 392: 134128.
[26]Jinniu Zhang*; Gang Li; Jia Liu; Yumeng Liu; Ruyi Yang; Lu Li; Qiyi Zhao; Jianzhi Gao; Gangqiang Zhu; Benpeng Zhu; Hongbing Lu*; Metal–organic framework-derived mesoporous rGO–ZnO composite nanofibers for enhanced isopropanol sensing properties, Sensors and Actuators B: Chemical, 2023, 378: 133108.
[25]Jinniu Zhang; Tingting Shao*; Juntang Dong; Gang Li; Jia Liu; Yumeng Liu; Ruyi Yang; Jianzhi Gao; Lu Li; Yanmin Jia; Lizhai Zhang; Hongbing Lu*; Construction of mesoporous WO3 nanofibers functionalized with nanoscale PtO catalysts for enhanced acetone sensing properties, Journal of Alloys and Compounds, 2023, 933: 167703.
[24]Jia Liu; Wei Wang; Gang Li; Xiaobing Bian; Yumeng Liu; Jinniu Zhang; Jianzhi Gao; Chunlan Wang*; Benpeng Zhu*; Hongbing Lu*; Metal–organic framework-derived CuO tube-like nanofibers with high surface area and abundant porosities for enhanced room-temperature NO2 sensing properties, Journal of Alloys and Compounds, 2023, 934: 167950.
[23]Gang Li; Yuanyi Zhang; Qingfei Liang; Jinniu Zhang; Jia Liu; Yumeng Liu; Chunlan Wang; Jianzhi Gao; Hongbing Lu*; Nanoporous Co3O4−TiO2 heterojunction nanosheets for ethanol sensing, ACS Applied Nano Materials, 2022, 5: 4779−4786.
[22]Yumeng Liu; Jinniu Zhang; Gang Li; Jia Liu; Qingfei Liang; Hongjun Wang; Yuanyuan Zhu; Jianzhi Gao; Hongbing Lu*; In2O3−ZnO nanotubes for the sensitive and selective detection of ppb-level NO2 under UV irradiation at room temperature, Sensors and Actuators B: Chemical, 2022, 355: 131322.
[21]Wei Wang; Yuanyi Zhang; Jinniu Zhang; Gang Li; Deying Leng; Ying Gao; Jianzhi Gao; Hongbing Lu*; Xiaohui Li*; Metal-organic framework-derived Cu2O−CuO octahedrons for sensitive and selective detection of ppb-level NO2 at room temperature, Sensors and Actuators B: Chemical, 2021, 328: 129045.
[20]Yuanyi Zhang; Xia Xin; Hui Sun; Qianru Liu; Jinniu Zhang; Gang Li; Jianzhi Gao; Hongbing Lu*; Chunlan Wang*; Porous ZnO−SnO2−Zn2SnO4 heterojunction nanofibers fabricated by electrospinning for enhanced ethanol sensing properties under UV irradiation, Journal of Alloys and Compounds, 2021, 854: 157311.
[19]Jinniu Zhang; Deying Leng; Gang Li; Jia Liu; Hongjun Wang; Yuanyuan Zhu; Hongbing Lu*; Jianzhi Gao*; Benpeng Zhu*; Bimetallic−organic framework-derived Co3O4−ZnO heterojunction nanofibers: a new kind of emerging porous nanomaterial for enhanced ethanol sensing, Sensors and Actuators B: Chemical, 2021, 349: 130732.
[18]Jinniu Zhang; Deying Leng; Lizhai Zhang; Gang Li; Fei Ma; Jianzhi Gao; Hongbing Lu*; Benpeng Zhu*; Porosity and oxygen vacancy engineering of mesoporous WO3 nanofibers for fast and sensitive low-temperature NO2 sensing, Journal of Alloys and Compounds, 2021, 853: 157339.
[17]Yang Zhao; Wei Wang; Xiaohui Li*; Hongbing Lu*; Zhaojiang Shi; Yamin Wang; Chenxi Zhang; Jiyi Hu; Guangcun Shan; Functional Porous MOF-derived CuO octahedra for harmonic soliton molecule pulses generation, ACS Photonics, 2020, 7: 2440−2447.
[16]Jinniu Zhang; Chujun Chen; Hongbing Lu*; Deying Leng; Gang Li; Yumeng Liu; Qingfei Liang; Jianzhi Gao; Chunlan Wang*; Benpeng Zhu*; Construction of anatase@rutile core@shell TiO2 nanosheets with controllable shell layer thicknesses for enhanced ethanol sensing, Sensors and Actuators B: Chemical, 2020, 325: 128815.
[15]Jinniu Zhang; Lizhai Zhang; Deying Leng; Fei Ma; Ziyan Zhang; Yuanyi Zhang; Wei Wang; Qingfei Liang; Jianzhi Gao; Hongbing Lu*; Nanoscale Pd catalysts decorated WO3−SnO2 heterojunction nanotubes for highly sensitive and selective acetone sensing, Sensors and Actuators B: Chemical, 2020, 306: 127575.
[14]Kaixin Chen; Huan Lu; Gang Li; Jinniu Zhang; Yonghong Tian; Ying Gao; Quanmin Guo; Hongbing Lu*; Jianzhi Gao*; Surface functionalization of porous In2O3 nanofibers with Zn nanoparticles for enhanced low-temperature NO2 sensing properties, Sensors and Actuators B: Chemical, 2020, 308: 127716.
[13]Gang Li; Xin Zhang; Huan Lu; Chao Yan; Kaixin Chen; Hongbing Lu*; Jianzhi Gao*; Zhibo Yang; Gangqiang Zhu; Chunlan Wang; Ze He; Ethanol sensing properties and reduced sensor resistance using porous Nb2O5-TiO2 n-n junction nanofibers, Sensors and Actuators B: Chemical, 2019, 283: 602−612.
[12]Xia Xin; Jinniu Zhang; Chujun Chen; Gang Li; Juan Qin; Zhibo Yang*; Hongbing Lu*; Jianzhi Gao; Chunlan Wang; Ze He; UV-activated porous Zn2SnO4 nanofibers for selective ethanol sensing at low temperatures, Journal of Alloys and Compounds, 2019, 780: 228−236.
[11]Jinniu Zhang; Huan Lu; Lizhai Zhang; Deying Leng; Yuanyi Zhang; Wei Wang; Ying Gao; Hongbing Lu*; Jianzhi Gao; Gangqiang Zhu; Zhibo Yang*; Chunlan Wang; Metal−organic framework-derived ZnO hollow nanocages functionalized with nanoscale Ag catalysts for enhanced ethanol sensing properties, Sensors and Actuators B: Chemical, 2019, 291: 458−469.
[10]Jinniu Zhang; Huan Lu; Hongbing Lu*; Gang Li; Jianzhi Gao; Zhibo Yang; Yonghong Tian; Min Zhang; Chunlan Wang; Ze He; Porous bimetallic Mo-W oxide nanofibers fabricated by electrospinning with enhanced acetone sensing performances, Journal of Alloys and Compounds, 2019, 779: 531−542.
[9]Jinniu Zhang; Hongbing Lu*; Chao Yan; Zhibo Yang; Gangqiang Zhu; Jianzhi Gao; Feng Yin; Chunlan Wang; Fabrication of conductive graphene oxide-WO3 composite nanofibers by electrospinning and their enhanced acetone gas sensing properties, Sensors and Actuators B: Chemical, 2018, 264: 128−138.
[8]Chang Liu; Hongbing Lu*; Jinniu Zhang; Jianzhi Gao; Gangqiang Zhu; Zhibo Yang; Feng Yin; Chunlan Wang; Crystal facet-dependent p-type and n-type sensing responses of TiO2 nanocrystals, Sensors and Actuators B: Chemical, 2018, 263: 557−567.
[7] Chao Yan; Hongbing Lu*; Jianzhi Gao*; Ying Zhang; Quanmin Guo; Haoxuan Ding; Yitao Wang; Fenfen Wei; Gangqiang Zhu; Zhibo Yang; Chunlan Wang; Improved NO2 sensing properties at low temperature using reduced graphene oxide nanosheet-In2O3 heterojunction nanofibers, Journal of Alloys and Compounds, 2018, 741: 908−917.
[6] Jinniu Zhang; Tianhua Chen; Hongbing Lu*; Zhibo Yang; Feng Yin; Jianzhi Gao; Qianru Liu; Yafang Tu; Hierarchical Bi2WO6 architectures decorated with Pd nanoparticles for enhanced visible-light-driven photocatalytic activities, Applied Surface Science, 2017, 404: 282−290.
[5] Chang Liu; Hongbing Lu*; Jinniu Zhang; Zhibo Yang; Gangqiang Zhu; Feng Yin; Jianzhi Gao; Chujun Chen; Xia Xin; Abnormal p-type sensing response of TiO2 nanosheets with exposed {001} facets, Journal of Alloys and Compounds, 2017, 705: 112−117.
[4] Chao Yan; Hongbing Lu*; Jianzhi Gao*; Gangqiang Zhu; Feng Yin; Zhibo Yang; Qianru Liu; Gang Li; Synthesis of porous NiO-In2O3 composite nanofibers by electrospinning and their highly enhanced gas sensing properties, Journal of Alloys and Compounds, 2017, 699: 567−574.
[3] H. B. Lu, E. Thelander, J. W. Gerlach, U. Decker, B. P. Zhu, B. Rauschenbach, “Single pulse laser-induced phase transitions of PLD-deposited Ge2Sb2Te5 films”, Advanced Functional Materials, 23 (2013) 3621.
[2] H. B. Lu, S. M. Wang, L. Zhao, J. C. Li, B. H. Dong, Z. X. Xu, “Hierarchical ZnO microarchitectures assembled by ultrathin nanosheets: hydrothermal synthesis and enhanced photocatalytic activity”, Journal of Materials Chemistry, 21 (2011) 4228, “被编辑选为Hot Article: http://blogs.rsc.org/jm/”
[1] H. B. Lu, E. Thelander, J. W. Gerlach, D. Hirsch, U. Decker, B. Rauschenbach, “Ge2Sb2Te5 phase-change films on polyimide substrates by pulsed laser deposition”, Applied Physics Letters, 101 (2012) 031905.