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教授
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王 钊
来源: 发布时间:2018-10-15

姓名: 王钊        职称:教授

EMAIL: wangzhao@hubu.edu.cn

办公地址:武汉市武昌区友谊大道368号十大靠谱网赌APP物电学院

通讯地址:武汉市武昌区友谊大道368号十大靠谱网赌APP物电学院

 

研究方向:

无铅压电纳米线与微能量收集器件、半导体纳米材料与微纳气体传感器件

教育背景:

2003-2007 十大靠谱网赌APP 十大靠谱网赌APP 电子科学与技术 本科

2007-2010 十大靠谱网赌APP 十大靠谱网赌APP 微电子与固体电子学 硕士

2010-2013 十大靠谱网赌APP 材料科学与工程学院 材料学 博士

20126-201311 香港理工大学 应用物理系 研究助理

工作履历:

201312-20157 十大靠谱网赌APP 十大靠谱网赌APP 讲师

20157-20187 十大靠谱网赌APP 十大靠谱网赌APP 副教授

20187至今 十大靠谱网赌APP 十大靠谱网赌APP 教授

学术兼职:

电子元器件关键材料与技术专委会 会员

奖励与荣誉:

湖北省优秀博士学位论文获得者

学术成果、科研项目:

1. 代表性论文:

[1] Chen Z.#, Wang Z.#, Li X., et al. Flexible Piezoelectric-Induced Pressure Sensors for Static Measurements Based on Nanowires/Graphene Heterostructures [J]. ACS Nano, 2017, 11(5): 4507-13. (ESI高被引论文)

[2] Wang Z., Pan X. M., He Y. H., et al. Piezoelectric Nanowires in Energy Harvesting Applications [J]. Advances in Materials Science And Engineering, 2015, 165631.(ESI高被引论文)

[3] Yang S., Wang Z.*, Hu Y., et al. Defect-original room-temperature hydrogen sensing of MoO3 nanoribbon: Experimental and theoretical studies [J]. Sensors and Actuators B: Chemical, 2018, 260: 21-32.

[4] Liu G., Wang Z. *, Chen Z., et al. Remarkably Enhanced Room-Temperature Hydrogen Sensing of SnO2 Nanoflowers via Vacuum Annealing Treatment [J]. Sensors (Basel), 2018, 18(4): 949.

[5] Jin W., Wang Z. *, Li M., et al. Evolution of the composition, structure, and piezoelectric performance of (K1-xNax)NbO3 nanorod arrays with hydrothermal reaction time [J]. Applied Physics Letters, 2018, 112(14): 142904.

[6] Jin W., Wang Z. *, Huang H., et al. High-performance piezoelectric energy harvesting of vertically aligned Pb(Zr,Ti)O3 nanorod arrays [J]. RSC Advances, 2018, 8(14): 7422-7.

[7] Gao Y., Lei S., Kang T.,…. Wang Z.* et al. Bias-switchable negative and positive photoconductivity in 2D FePS3 ultraviolet photodetectors [J]. Nanotechnology, 2018, 29(24): 244001.

[8] Yang S. L., Wang Z. *, Zou Y. N., et al. Remarkably accelerated room-temperature hydrogen sensing of MoO3 nanoribbon/graphene composites by suppressing the nanojunction effects [J]. Sensors And Actuators B-Chemical, 2017, 248(160-8.

[9] Wang Z., Tan L., Pan X., et al. Self-Powered Viscosity and Pressure Sensing in Microfluidic Systems Based on the Piezoelectric Energy Harvesting of Flowing Droplets [J]. ACS Applied Materials & Interfaces, 2017, 9(34): 28586-95.

[10] He Y. H., Wang Z. *, Jin W. C., et al. Phase boundary and annealing dependent piezoelectricity in lead-free (K,Na)NbO3 nanorod arrays [J]. Applied Physics Letters, 2017, 110(21): 212904.

[11] He Y. H., Wang Z. *, Hu X. K., et al. Orientation-dependent piezoresponse and high-performance energy harvesting of lead-free (K,Na)NbO3 nanorod arrays [J]. RSC Advances, 2017, 7(28): 16908-15.

[12] Pan X. M., Wang Z. *, Cao Z. L., et al. A self-powered vibration sensor based on electrospun poly(vinylidene fluoride) nanofibres with enhanced piezoelectric response [J]. Smart Materials and Structures, 2016, 25(10): 105010.

[13] Wang Z., Zhang Y. D., Yang S. L., et al. (K,Na)NbO3 Nanofiber-based Self-Powered Sensors for Accurate Detection of Dynamic Strain [J]. ACS Applied Materials & Interfaces, 2015, 7(8): 4921-7.

[14] Wang Z., Hu Y. M., Wang W., et al. Electromechanical Conversion Behavior of K0.5Na0.5NbO3 Nanorods Synthesized by Hydrothermal Method [J]. Integrated Ferroelectrics, 2013, 142(1): 24-30.

[15] Wang Z., Hu Y. M., Wang W., et al. Fast and highly-sensitive hydrogen sensing of Nb2O5 nanowires at room temperature [J]. International Journal of Hydrogen Energy, 2012, 37(5): 4526-32.

[16] Gu H. S., Wang Z., Hu Y. M. Hydrogen Gas Sensors Based on Semiconductor Oxide Nanostructures [J]. Sensors, 2012, 12(5): 5517-50.

[17] Wang Z., Gu H. S., Hu Y. M., et al. Synthesis, growth mechanism and optical properties of (K,Na)NbO3 nanostructures [J]. CrystEngComm, 2010, 12(10): 3157-62.

 

2. 科研项目:

[1] 氢能源安全应用的氢气传感器件研发,湖北省技术创新专项重大项目,100万元,项目负责人,2016-2018

[2] SnO2/KNN纳米纤维的力电耦合与自供电氢敏机理研究,国家自然科学基金青年基金项目,28.8万元,项目负责人,2016-2018

[3] 高灵敏度红外和氢气探测用纳米材料及器件研制,科技部863计划课题,120万元,技术骨干,2012-2015

[4] 无铅压电纳米线的性能调控及其微纳能量收集元件的构建研究,国家自然科学基金面上项目,96万元,技术骨干,2015-2018

 


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