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教授

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顾豪爽

发布日期:2022-07-19    作者:     来源: 027dns     点击:


姓名: 顾豪爽 职称: 教授

【联系方式】

E-MAIL:guhsh@hubu.edu.cn

办公地址:武汉市武昌区友谊大道368号湖北大学微电子学院

  通讯地址:武汉市武昌区友谊大道368号湖北大学微电子学院


研究方向:

无铅压电材料与器件、微纳传感材料与器件、微纳能源材料与器件 

教育背景:

1982年7月 毕业于武汉师范学院物理学专业,获理学学士学位;

1988年7月 毕业于武汉大学理学,获理学硕士学位;

1996年7月 毕业于华中科技大学,获工学博士学位;

2000年8月-2001年8月 新加坡国立大学 访问学者。

工作履历:

19828月 武汉师范学院 物理系 助教

19891月 湖北大学 物理系 讲师、副教授

19971月 湖北大学 物理系 教授

19984月 湖北大学 物电学院 院长

20045月 湖北大学 副校长

学术兼职:

曾任湖北省物理学会副理事长,现任中国物理学会电介质专委会委员

奖励与荣誉:

[1]国务院政府特殊津贴.

[2] 低维铁电纳米材料的取向生长及性能研究,湖北省自然科学二等奖,2011.

[3] 钙钛矿结构铁电薄膜的取向生长和性能研究, 湖北省自然科学二等奖,2003.

师范生顶岗实习与农村教师置换脱产培训“双提高”的理论与实践探索,湖北省政府教学成果一等奖,2012.

科研项目与学术成果:

1. 代表性论文:

[1] Jiang L., Lu M R., Yang P Y., Fan Y J., Huang H., Xiong J., Wang Z., Gu H S., Wang J. Self-powered sensitive pressure sensor matrix based on patterned arrays of flexible (K,Na)NbO3 piezoelectric nanorods [J]. Science China-Materials, 2023: 1-10.

[2] Zeng S., Zhang M R., Jiang L., Wang Z., Gu H S., Xiong J., Du Y., Ren L. Wearable Piezoelectric Nanogenerators Based on Core-Shell Ga-PZT@Ga-O-x Nanorod-Enabled P(VDF-TrFE) Composites [J]. Acs Applied Materials & Interfaces, 2022, 14(6): 7990-8000.

[3] Yang S L., Chen Z., Wang Z., Lei G., Xiong J., Xu H X., Gu H S. In situ synthesis of MoS2-decorated Zn-doped MoO3 for outstanding hydrogen sensing at room temperature [J]. Sensors and Actuators B-Chemical, 2022, 367:132026.

[4] Yang P Y., Fan Y J., Hu K Y., Jiang L., Tan L., Wang Z., Li A., Yang S L., Hu Y M., Gu H S. Fast, Sensitive, and Highly Selective Room-Temperature Hydrogen Sensing of Defect-Rich Orthorhombic Nb2O5-x Nanobelts with an Abnormal p-Type Sensor Response [J]. Acs Applied Materials & Interfaces, 2022, 14(22): 25937-48.

[5] Ma F., Zhao Y., Li J H., Zhang X W., Gu H S., You J B. Nickel oxide for inverted structure perovskite solar cells [J]. Journal of Energy Chemistry, 2021, 52:393-411.

[6] Li W R., Tang G., Zhang G Z., Jafri H M., Zhou J., Liu D., Liu Y., Wang J S., Jin K J., Hu Y M., Gu H S., Wang Z., Hong J W., Huang H B., Chen L Q., Jiang S L., Wang Q. Improper molecular ferroelectrics with simultaneous ultrahigh pyroelectricity and figures of merit [J]. Science Advances, 2021, 7(5): eabe3068.

[7] Jiang L., Yang P Y., Fan Y J., Zeng S., Wang Z., Pan Z H., He Y H., Xiong J., Zhang X H., Hu Y M., Gu H S., Wang X L., Wang J. Ultrahigh piezoelectric coefficients of Li-doped (K,Na)NbO3 nanorod arrays with manipulated O-T phase boundary: Towards energy harvesting and self-powered human movement monitoring [J]. Nano Energy, 2021, 86: 106072.

[8] Yun F F., Yu Z W., He Y H., Jiang L., Wang Z., Gu H S., Wang X L. Voltage-induced penetration effect in liquid metals at room temperature [J]. National Science Review, 2020, 7(2): 366-72.

[9] Yang S M., Liu W D., Han Y., Liu Z K., Zhao W J., Duan C Y., Che Y H., Gu H S., Li Y B., Liu S Z. 2D Cs2PbI2Cl2 Nanosheets for Holistic Passivation of Inorganic CsPbI2Br Perovskite Solar Cells for Improved Efficiency and Stability [J]. Advanced Energy Materials, 2020, 10(46): 2002882.

[10] Li L Y., Hu X K., Jin L., He Y H., Jia S F., Sheng H P., Cheng Y F., Li L., Wang Z., Gu H S., Zhu Y L., Wang J B., Gao Y H. Atomic scale study of the oxygen annealing effect on piezoelectricity enhancement of (K,Na)NbO3 nanorods [J]. Journal of Materials Chemistry C, 2020, 8(44): 15830-8.

[11] Zhu S., Liu Y., Wu G T., Fei L F., Zhang S H., Hu Y M., Yan Z J., Wang Y., Gu H S., Chen W P. Mechanism study on extraordinary room-temperature CO sensing capabilities of Pd-SnO2 composite nanoceramics [J]. Sensors and Actuators B-Chemical, 2019, 285:49-55.

[12] Zhang X., Gu H S., Zhang Y., Guo L J., Yang J T., Luo S J., Lu X., Chen K S., Chai H X., Wang G Y., Zhang X., Zhou X. Enhanced thermoelectric properties of YbZn2Sb2-xBix through a synergistic effect via Bi-doping [J]. Chemical Engineering Journal, 2019, 374:589-95.

[13] Zhang X., Zhang B., Peng K.-L., Shen X.-C., Wu G.-T., Yan Y.-C., Luo S.-J., Lu X., Wang G.-Y., Gu H.*, Zhou X.-Y. Spontaneously promoted carrier mobility and strengthened phonon scattering in p-type YbZn2Sb2 via a nanocompositing approach [J]. Nano Energy, 2018, 43:159-67.

[14] Wang L., Liu B., Zhao X., Demir H. V., Gu H.*, Sun H. Solvent-Assisted Surface Engineering for High-Performance All-Inorganic Perovskite Nanocrystal Light-Emitting Diodes [J]. ACS Applied Materials & Interfaces, 2018, 10(23): 19828-35.

[15] Yang S., Wang Z., Hu Y., Cai Y., Huang R., Li X., Huang Z., Lan Z., Chen W., Gu H.* Defect-original room-temperature hydrogen sensing of MoO3 nanoribbon: Experimental and theoretical studies [J]. Sensors and Actuators B, 2018, 260:21-32.

[16] Liu B., Wang L., Gu H.*, Sun H., Demir H. V. Highly Efficient Green Light-Emitting Diodes from All-Inorganic Perovskite Nanocrystals Enabled by a New Electron Transport Layer [J]. Advanced Optical Materials, 2018, 1800220.

[17] He J., Ai L., Liu X., Huang H., Li Y., Zhang M., Zhao Q., Wang X., Chen W., Gu H.* Plasmonic CuS nanodisk assembly based composite nanocapsules for NIR-laser-driven synergistic chemo-photothermal cancer therapy [J]. Journal of Materials Chemistry B, 2018, 6(7): 1035-43.

[18] Jin W., Wang Z., Li M., He Y., Hu X., Li L., Gao Y., Hu Y., Gu H.*, Wang X. 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.

[19] Yang S. L., Wang Z., Zou Y. N., Luo X. T., Pan X. M., Zhang X. H., Hu Y. M., Chen K. S., Huang Z. B., Wang S. F., Zhang K., Gu H.* S. Remarkably accelerated room-temperature hydrogen sensing of MoO3 nanoribbon/graphene composites by suppressing the nanojunction effects [J]. Sensors And Actuators B, 2017, 248: 160-8.

[20] Wang Z., Tan L., Pan X., Liu G., He Y., Jin W., Li M., Hu Y., Gu H.* 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.

[21] Cai Y. X., Luo S. J., Wang Z., Xiong J., Gu H.* S. Modelling of the electronic and ferroelectric properties of trichloroacetamide using Monte Carlo and first-principles calculations [J]. Journal of Materiomics, 2017, 3(2): 130-4.

[22] He Y. H., Wang Z., Jin W. C., Hu X. K., Li L. Y., Gao Y. H., Zhang X. H., Gu H.*, Wang X. L. Phase boundary and annealing dependent piezoelectricity in lead-free (K,Na)NbO3 nanorod arrays [J]. Applied Physics Letters, 2017, 110(21): 212904.

[23] Yang S. L., Wang Z., Hu Y. M., Luo X. T., Lei J. M., Zhou D., Fei L. F., Wang Y., Gu H.* S. Highly Responsive Room-Temperature Hydrogen Sensing of alpha-MoO3 Nanoribbon Membranes [J]. ACS Applied Materials & Interfaces, 2015, 7(17): 9247-53.

[24] Wang Z., Zhang Y. D., Yang S. L., Hu Y. M., Wang S. F., Gu H.* S., Wang Y., Chan H. L. W., Wang J. (K,Na)NbO3 Nanofiber-based Self-Powered Sensors for Accurate Detection of Dynamic Strain [J]. ACS Applied Materials & Interfaces, 2015, 7(8): 4921-7.

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

[26] Wang A. M., Wang W., Long C., Li W., Guan J. G., Gu H.*, Xu G. X. Facile preparation, formation mechanism and microwave absorption properties of porous carbonyl iron flakes [J]. Journal of Materials Chemistry C, 2014, 2(19): 3769-76.

[27] He J., Hu Y. M., Wang Z., Lu W., Yang S. L., Wu G. T., Wang Y., Wang S. F., Gu H.*, Wang J. Hydrothermal growth and optical properties of Nb2O5 nanorod arrays [J]. Journal of Materials Chemistry C, 2014, 2(38): 8185-90.

2. 承担科研项目:

[1] 异质复合半导体纳米纤维纸室温氢气传感器多层次构效关系与关键技术研究,(U21A20500),2021.

[2] MoO3纳米线的氢敏机理原位分析与传感器性能优化研究,国家自然科学基金(51972102),2019.

[3] 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(11474088),2015.

[4] 高灵敏度红外和氢气探测用纳米材料及器件研制,国家高技术研究发展计划(863计划)2013AA0319032013.

[5] 蛋白修饰SiO2纳米胶囊的仿生组装及肿瘤靶向性研究,国家自然科学基金(51173038),2012.

[6] 无铅压电纳米阵列的可控生长及太赫兹波辐射探索,国家自然科学基金(90923013),2010.

改性KNN一维纳米结构的机电/声电转换特性研究,国家自然科学基金(50872031),2009.

 

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