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个人信息Personal Information
副教授
硕士生导师
性别:男
毕业院校:吉林大学
学位:博士
所在单位:控制科学与工程学院
学科:检测技术与自动化装置. 模式识别与智能系统. 导航、制导与控制
办公地点:海山楼A1117
联系方式:zhuhuichao@dlut.edu.cn
扫描关注
- [1]Zhu, Huichao,Mu, Hongjian,Cai, Zhaoyun,Chu, Xuefeng,Yang, Xiaotian.High-Performance Organic-Inorganic Hybrid Thin-Film Transistors with Interesting Synaptic Behav...[J],PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE,2019,216(18)
- [2]Ding, Baojun,Wei, Siqi,Zhu, Huichao,Tao, Shengyang.Tailorable and Flexible Conducting Films via Interfacial Modification of Polymer Fibers[J],CHEMISTRYSELECT,2018,3(48):13736-13742
- [3]李铮,董维杰,朱慧超.微结构PDMS压电俘能器设计与特性研究[J],功能材料,2018,49(6):6114-6118,6123
- [4]Li, Meihua,Zhu, Huichao,Cheng, Jing,Yan, Weiping,Zhao, Mingming.Synthesis and improved ethanol sensing performance of CuO/SnO2 based hollow microspheres[J],JOURNAL OF POROUS MATERIALS,2017,24(2):507-518
- [5]Zhang, Xizhen,Cheng, Chuanhui,Zhu, Huichao,Yu, Tao,Zhang, Daming,Chen, Baojiu.A New MOS Capacitance Correction Method Based on Five-Element Model by Combining Double-Frequen...[J],IEEE ELECTRON DEVICE LETTERS,2016,37(10):1328-1331
- [6]Li, Meihua,Zhu, Huichao,Wang, Bin,Cheng, Jing,Yan, Weiping,Xia, Shufeng,Tang, Zhenan.Ultrasensitive and highly selective detection of methoxy propanol based on Ag-decorated SnO2 ho...[J],SENSORS AND ACTUATORS B-CHEMICAL,2016,232(232):545-556
- [7]余隽,朱慧超,李晓干,唐祯安.ZnO microspheres-SnO2 nanoparticles composite for a selective acetone sensor[A],2016
- [8]Li, Meihua,Yan, Weiping,Zhu, Huichao,Xia, Shufeng,Wu, Hao,Tang, Zhenan.Synthesis and gas sensing properties of biomorphic SnO2 derived from loofah sponge and eggshell...[J],JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS,2015,26(12,SI):9561-9570
- [9]胡瑞金,王兢,朱慧超.PdO,Au,CdO修饰SnO2纳米纤维的制备及其气敏特性[J],物理化学学报,2015,31(10):1997-2004
- [10]Cai, Haitao,Liu, Hang,Zhu, Huichao,Shao, Pai,Hou, Changmin.Capacitive Behavior of Single Gallium Oxide Nanobelt[J],MATERIALS,2015,8(8):5313-5320
- [11]Li, Meihua,Yan, Weiping,Zhu, Huichao,Guo, Zhenya,Tang, Zhenan.Fabrication and characterization of a low power consumption ethanol gas sensor based on a suspe...[J],RSC ADVANCES,2015,5(64):51953-51960
- [12]Quan Xiao-Tong,Zhu Hui-Chao,Cai Hai-Tao,Zhang Jia-Qi,Wang Xiao-Jiao.Resistive Switching Behavior in Amorphous Aluminum Oxide Film Grown by Chemical Vapor Depositio...[J],CHINESE PHYSICS LETTERS,2014,31(7)
- [13]Ren, Mingkun,Huang, Hui,Zhao, Danna,Zhu, Huichao,Liu, Yan,Sun, Baojuan,Wu, Haibo.Growth of high quality GaN nanowires by using Ga/GaCl3 sources[J],PHYSICA E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES,2014,57:145-148
- [14]Chen, Minghan,Zhu, Huichao,Li, Xiaogan,Yu, Jun,Cai, Haitao,Quan, Xiaotong,Wang, Kaili,Zhang, Jiaqi.The Influence of Atmosphere on Electrical Property of Copper Oxide Nanoparticles[J],JOURNAL OF NANOMATERIALS,2014,2014
- [15]Xia, Shufeng,Zhang, Jiaqi,Yu, Jun,Tang, Zhen'an,Zhu, Huichao,Cai, Haitao.Hydrothermally synthesized CuO based volatile organic compound gas sensor[J],RSC ADVANCES,2014,4(101):57975-57982
- [16]Zhao, Danna,Zhu, Huichao,Liu, Yan,Sun, Baojuan,Huang, Hui,Wu, Haibo,Ren, Mingkun.Influence of Ni and Au/Ni catalysts on GaN nanowire growth[J],PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE,2013,210(12):2689-2692
- [17]Ate, Abdelrahim,Zhu, Huichao,Quan, Xiaotong,Cai, Haitao,Wang, Xiaojiao,Tang, Zhenan.Ultrahigh Responsivity UV/IR Photodetectors Based on Pure CuO Nanowires[A],2013,1586:92-96
- [18]Ate, Abdelrahim,Tang, Zhenan,Zhu, Huichao,Cai, Haitao,Quan, Xiaotong,Wang, Xiaojiao,Jia, Xiaoning,Zhang, Jiaqi,Wang, Kaili,Jia, Xiaokai.High performance UV sensor based on individual ZnO nanowire and photoelectric properties of ind...[A],2013,1586:52-56
- [19]Jia, Xiaokai,Xu, Hongjun,Gao, Jingyun,Jia, Xiaoning,Zhu, Huichao,Yu, Dapeng.Ultralow electron mobility of an individual Cu-doped ZnO nanowire[J],PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE,2013,210(6):1217-1220
- [20]Xu, Hongjun,Yu, Dapeng,Hou, Yumin,Gao, Jingyun,Zhu, Huichao,Zhu, Rui,Sun, Yanghui,Zhu, Xinli,Wang, Yazhou,Wang, Xiaowei.Regrowth of Template ZnO Nanowires for the Underlying Catalyst-Free Growth Mechanism[J],CRYSTAL GROWTH & DESIGN,2011,11(6):2135-2141
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