uedbet,ued西甲赫塔菲官网

张晓萍

  • 政治面貌

  • 职称

    教授、博士生导师

  • 职务

  • 所在系所

    光电子与电磁信息研究所

  • 邮箱

    zxp@lzu.edu.cn

  • 办公地址

    飞云楼504

学习经历

  1984.09-1987.06,兰州大学电子与信息科学系,无线电物理专业,理学硕士
  1978.09-1982.06,兰州大学电子与信息科学系,无线电物理专业,理学学士

工作经历

  2001.10-至今,uedbet,教授
  1996.09-2001.10,兰州大学电子与信息科学系,副教授
  1987.07-1996.09,兰州大学电子与信息科学系,讲师

教学情况

  主讲本科生课程:光纤通信、微波原理与技术
  主讲研究生课程:光波导理论、信息光电子学

指导研究生情况

  2003年开始指导研究生,其中指导博士研究生11人、硕士研究生52人。目前在校硕士研究生6人,在站博士后1人。所培养的研究生每年均有人获得国家奖学金及各类社会类奖学金。已毕业研究生中,在读或已获得博士学位的有20多人,他们在兰州大学、苏州大学、沈阳工业大学、兰州理工大学及中国科学院光电技术研究所等科研院所任副教授及副研究员等;其余毕业生就职于华为公司、中兴集团、中国招商银行、中国交通银行、中国电信股份有限公司及海南省公安厅等企事业单位,部分人已任分公司事业部总经理等。

研究方向

  主要从事新型软功能材料离子液体微流控技术、光流体技术、纳米光学及基于微流体技术的能量收集等领域的实验和理论计算工作,获教育部“新世纪优秀人才支持计划”。

招生专业

  无线电物理(学术学位博士、学术学位硕士)、通信与信息系统(学术学位硕士)

项目成果

主持参与完成的项目:

1.2005.01-2007.12,教育部“新世纪优秀人才支持计划”基金项目,No. NCET-04-0981,智能全光网通信技术及其应用,主持;

2.2004.01-2006.12,国家自然科学基金面上项目, No. 60377039,离子液体的光电与电光特性研究,主持;

3.2017.01-2019.12,横向项目,No.(17)0045,先进离子型软光电材料研制2017,主持;

4.2014.01-2016.12,横向项目,No. (13)0390,新型离子型软光电材料研制,主持;

5.2013.05-2018.05,横向项目,No. (13)0155,先进离子型软光电材料研制,主持;

6.2011.04-2016.04,横向项目,No. (11)0135,离子型软光电材料研制,主持。

 

目前在研项目:

1.2019.01-2022.12,国家自然科学青年基金项目, No.61804071,基于SLIPS极性低压电润湿的液滴三维操控与驱动机理研究,参与。

发表论文及专著

发表SCI/EI论文80余篇,近5年主要的SCI/EI论文如下:

[1]Yang, F.; Gong, J.; Yang, E.; Guan, Y.; He, X.; Liu, S.; Zhang, X.; Deng, Y. Microwave-absorbing properties of room-temperature ionic liquids. J. Phys. D: Appl. Phys. 2019, 52 (15), 155302.

[2]Yang, F.; Gong, J.; Yang, E.; Guan, Y.; He, X.; Liu, S.; Zhang, X.; Deng, Y. Ultrabroadband metamaterial absorbers based on ionic liquids. Appl. Phys. A 2019, 125 (2), 149.

[3]Yang, E.; Yang, F.; Pei, J.; Zhang, X.; Liu, S.; Deng, Y. All-dielectric ultra-broadband metamaterial absorber based on imidazole ionic liquids. J. Phys. D: Appl. Phys. 2019, 52 (39).

[4]He, X.; Zhang, J.; Zhang, X.; Deng, Y. Droplet manipulation with polarity-dependent low-voltage electrowetting on an open slippery liquid infused porous surface. Soft Matter 2019, 15 (26), 5211-5219.

[5]Guan, Y.; Chen, W.; Zhang, J.; Yang, F.; Du, C.; Zhang, X.; Deng, Y. Ionic Liquid Filled Single-Walled Carbon Nanotubes for Flow-Induced Energy Harvesting. J. Phys. Chem. C 2019, 123 (12), 6981-6988.

[6]Du, C.; Guan, Y.; Liu, S.; Ni, W.; Pei, J.; Zhang, W.; Zhang, X.; Deng, Y. Highly Efficient and Non-Precious Metal for the Li-SOCl2 Battery Using Nitrogen Doped Carbon Supported Cu Nanoparticles. J. Electrochem. Soc. 2019, 166 (4), A641-A648.

[7]Yuan, M.; Cheng, L.; Cao, P.; Li, X.; He, X.; Zhang, X. Optical Manipulation of Dielectric Nanoparticles with Au Micro-racetrack Resonator by Constructive Interference of Surface Plasmon Waves. Plasmonics 2018, 13 (2), 427-435.

[8]Guan, Y.; Shao, Q.; Chen, W.; Zhang, J.; Zhang, X.; Deng, Y. Flow-induced voltage generation by driving imidazolium-based ionic liquids over a graphene nano-channel. J. Mater. Chem. A 2018, 6 (25), 11941-11950.

[9]Du, C.; Liu, S.; Zhang, W.; Zhang, X.; Deng, Y. Nitrogen-Doped Carbon Nanotubes Based on Ionic Liquid Precursors as Effective Cathode Catalysts for Li/SOCl2Batteries. J. Electrochem. Soc. 2018, 165 (9), A1955-A1960.

[10]Chen, W.; Guan, Y.; Zhang, X.; Deng, Y. Influence of External Electric Field on Vibrational Spectrum of Imidazolium-Based Ionic Liquids Probed by Molecular Dynamics Simulation. Acta Physico-Chimica Sinica 2018, 34 (8), 912-919.

[11]He, X.; Qiang, W.; Wu, J.; Shao, Q.; Cao, P.; Cheng, L.; Zhang, X.; Deng, Y. Manipulation of magnetic ionic liquid droplets and their application in energy harvesting. Journal of Physics D-Applied Physics 2017, 50 (46), 465002.

[12]He, X.; Qiang, W.; Du, C.; Shao, Q.; Zhang, X.; Deng, Y. Modification of lubricant infused porous surface for low-voltage reversible electrowetting. J. Mater. Chem. A 2017, 5 (36), 19159-19167.

[13]Guan, Y.; Shao, Q.; Chen, W.; Liu, S.; Zhang, X.; Deng, Y. Dynamic Three-Dimensional Nanowetting Behavior of Imidazolium-Based Ionic Liquids Probed by Molecular Dynamics Simulation. J. Phys. Chem. C 2017, 121 (42), 23716-23726.

[14]Gong, J.; Yang, F.; Zhang, X. A novel wideband optical absorber based on all-metal 2D gradient nanostructures. Journal of Physics D-Applied Physics 2017, 50 (45), 455105.

[15]Gong, J.; Yang, F.; Shao, Q.; He, X.; Zhang, X.; Liu, S.; Tang, L.; Deng, Y. Microwave absorption performance of methylimidazolium ionic liquids: towards novel ultra-wideband metamaterial absorbers. RSC Advances 2017, 7 (67), 41980-41988.

[16]Shao, Q.; Jia, J.; Guan, Y.; He, X.; Zhang, X. Flow-induced voltage generation by moving a nano-sized ionic liquids droplet over a graphene sheet: Molecular dynamics simulation. J. Chem. Phys. 2016, 144 (12), 124703.

[17]Li, X.; Cheng, L.; Yuan, M.; Cao, P.; He, X.; Zhang, X. Artificial Electromagnetic Characteristics Analysis in Hyperbolic Metamaterials Slot Waveguides Based on Graphene. Progress in Electromagnetics Research C 2016, 69, 199-207.

[18]Cao, P.; Cheng, L.; Zhang, X.; Huang, X.; Jiang, H. Near-infrared Plasmonic Far-field Nanofocusing Effects with Elongated Depth of Focus based on Hybrid Au–Dielectric–Ag Subwavelength Structures. Plasmonics 2016, 11 (5), 1219-1231.

对外合作

1.Molecular Science Research Hub, Imperial College London, United Kingdom

2.Information Sciences and Technology, Pennsylvania State University, United State

3.中国科学院光电技术研究所

4.沈阳工业大学

5.兰州理工大学

荣誉获奖

社会工作

其他信息