刘怿冲

工学博士 材料科学与工程 讲师


                                                       

教育与工作经历

2017年至今 武汉科技大学材料与冶金学院,博士后

2011-2017 北京科技大学 新金属材料国家重点实验室 博士

2007-2011 武汉大学 动力与机械学院 金属材料工程 学士


                                                       


联系方式

电话: +86 (027) 68862129;邮箱: yc.l@wust.edu.cn

地址: 武汉市青山区和平大道947号 武汉科技大学 钢铁楼 909室,邮:430081


 

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研究兴趣

    


研究方向

研究方向:电解水制氢,半导体氧化物,碳基催化剂


代表性论文

2018

·      Liu, Y., Kang, Z., Zhang, S., Li, Y., Wu, H., Wu, J., Wu, P., Zhang, Z., Liao, Q., and Zhang, Y., Fer-roelectric polarization-enhanced charge separation in a vanadium-doped ZnO photoelectro-chemical system. Inorganic Chemistry Frontiers, 2018.


Before 2017

·      Liu, Y., Kang, Z., Si, H., Li, P., Cao, S., Liu, S., Li, Y., Zhang, S., Zhang, Z., Liao, Q., Wang, L., and Zhang, Y., Cactus-like hierarchical nanorod-nanosheet mixed dimensional photoanode for efficient and stable water splitting. Nano Energy, 2017. 35: 189-198.

·      Liu, Y., Yan, X., Kang, Z., Li, Y., Shen, Y., Sun, Y., Wang, L., and Zhang, Y., Synergistic Effect of Surface Plasmonic particles and Surface Passivation layer on ZnO Nanorods Array for Improved Photoelectrochemical Water Splitting. Scientific Reports, 2016. 6.

·      Liu, Y., Gu, Y., Yan, X., Kang, Z., Lu, S., Sun, Y., and Zhang, Y., Design of sandwich-structured ZnO/ZnS/Au photoanode for enhanced efficiency of photoelectrochemical water splitting. Nano Research, 2015. 8(9): 2891-2900.

·      Wei, Q., Yan, X., Kang, Z., Zhang, Z., Cao, S., Liu, Y., and Zhang, Y., Carbon Quantum Dots Decorated C3N4/TiO2 Heterostructure Nanorod Arrays for Enhanced Photoelectrochemical Per-formance. Journal of the Electrochemical Society, 2017. 164(7): H515-H520.

·      Sun, Y., Yan, X., Zheng, X., Li, Y., Liu, Y., Shen, Y., Ding, Y., and Zhang, Y., Effect of carrier screening on ZnO-based resistive switching memory devices. Nano Research, 2017. 10(1): 77-86.

·      Si, H., Liao, Q., Kang, Z., Ou, Y., Meng, J.J., Liu, Y., Zhang, Z., and Zhang, Y., Deciphering the NH4PbI3 Intermediate Phase for Simultaneous Improvement on Nucleation and Crystal Growth of Perovskite. Advanced Functional Materials, 2017. 27(30).

·      Li, Y., Kang, Z., Yan, X., Cao, S., Li, M., Liu, Y., Liu, S., Sun, Y., Zheng, X., and Zhang, Y., A facile method for the preparation of three-dimensional CNT sponge and a nanoscale engineering design for high performance fiber-shaped asymmetric supercapacitors. Journal of Materials Chemistry A, 2017. 5(43): 22559-22567.

·      Ding, Y., Zhang, Z., Luo, B., Liao, Q., Liu, S., Liu, Y., and Zhang, Y., Investigation on the broadband electromagnetic wave absorption properties and mechanism of Co3O4-nanosheets/reduced-graphene-oxide composite. Nano Research, 2017. 10(3): 980-990.

·      Zhao, K., Yan, X., Gu, Y., Kang, Z., Bai, Z., Cao, S., Liu, Y., Zhang, X., and Zhang, Y., Self-Powered Photoelectrochemical Biosensor Based on CdS/RGO/ZnO Nanowire Array Heterostructure. Small, 2016. 12(2): 245-251.

·      Sun, Y., Yan, X., Zheng, X., Liu, Y., Shen, Y., and Zhang, Y., Influence of carrier concentration on the resistive switching characteristics of a ZnO-based memristor. Nano Research, 2016. 9(4): 1116-1124.

·      Shen, Y., Yan, X., Si, H., Lin, P., Liu, Y., Sun, Y., and Zhang, Y., Improved Photoresponse Perfor-mance of Self-Powered ZnO/Spiro-MeOTAD Heterojunction Ultraviolet Photodetector by Pie-zo-Phototronic Effect. Acs Applied Materials & Interfaces, 2016. 8(9): 6137-6143.

·      Lu, S., Liao, Q., Qi, J., Liu, S., Liu, Y., Liang, Q., Zhang, G., and Zhang, Y., The enhanced perfor-mance of piezoelectric nanogenerator via suppressing screening effect with Au particles/ZnO nanoarrays Schottky junction. Nano Research, 2016. 9(2): 372-379.

·      Li, Y., Yan, X., Zheng, X., Si, H., Li, M., Liu, Y., Sun, Y., Jiang, Y., and Zhang, Y., Fiber-shaped asymmetric supercapacitors with ultrahigh energy density for flexible/wearable energy storage. Journal of Materials Chemistry A, 2016. 4(45): 17704-17710.

·      Kang, Z., Yan, X., Wang, Y., Zhao, Y., Bai, Z., Liu, Y., Zhao, K., Cao, S., and Zhang, Y., Self-powered photoelectrochemical biosensing platform based on Au NPs@ZnO nanorods array. Nano Research, 2016. 9(2): 344-352.

·      Zhang, X., Liao, Q., Liu, S., Xu, W., Liu, Y., and Zhang, Y., CuNiO nanoparticles assembled on graphene as an effective platform for enzyme-free glucose sensing. Analytica Chimica Acta, 2015. 858: 49-54.

·      Sun, Y., Yan, X., Zheng, X., Liu, Y., Zhao, Y., Shen, Y., Liao, Q., and Zhang, Y., High On-Off Ratio Improvement of ZnO-Based Forming-Free Memristor by Surface Hydrogen Annealing. Acs Applied Materials & Interfaces, 2015. 7(13): 7382-7388.

·      Shen, Y., Yan, X., Bai, Z., Zheng, X., Sun, Y., Liu, Y., Lin, P., Chen, X., and Zhang, Y., A self-powered ultraviolet photodetector based on solution-processed p-NiO/n-ZnO nanorod array heterojunction. Rsc Advances, 2015. 5(8): 5976-5981.

·      Kang, Z., Yan, X., Wang, Y., Bai, Z., Liu, Y., Zhang, Z., Lin, P., Zhang, X., Yuan, H., Zhang, X., and Zhang, Y., Electronic Structure Engineering of Cu2O Film/ZnO Nanorods Array All-Oxide p-n Het-erostructure for Enhanced Photoelectrochemical Property and Self-powered Biosensing Applica-tion. Scientific Reports, 2015. 5.

·      Kang, Z., Gu, Y., Yan, X., Bai, Z., Liu, Y., Liu, S., Zhang, X., Zhang, Z., Zhang, X., and Zhang, Y., Enhanced photoelectrochemical property of ZnO nanorods array synthesized on reduced graphene oxide for self-powered biosensing application. Biosensors & Bioelectronics, 2015. 64: 499-504.

·      Chen, X., Lin, P., Yan, X., Bai, Z., Yuan, H., Shen, Y., Liu, Y., Zhang, G., Zhang, Z., and Zhang, Y., Three-Dimensional Ordered ZnO/Cu2O Nanoheterojunctions for Efficient Metal-Oxide Solar Cells. Acs Applied Materials & Interfaces, 2015. 7(5): 3216-3223.

·      Lin, P., Yan, X., Liu, Y., Li, P., Lu, S., and Zhang, Y., A tunable ZnO/electrolyte heterojunction for a self-powered photodetector. Physical Chemistry Chemical Physics, 2014. 16(48): 26697-26700.

·      Chen, X., Bai, Z., Yan, X., Yuan, H., Zhang, G., Lin, P., Zhang, Z., Liu, Y., and Zhang, Y., Design of efficient dye-sensitized solar cells with patterned ZnO-ZnS core-shell nanowire array photoanodes. Nanoscale, 2014. 6(9): 4691-4697.