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教师信息
曹霞
化学与生物工程学院

曹霞

教授
  • 办公地点: 化生楼306
  • 办公电话:
  • 电子邮件: caoxia@ustb.edu.cn
  • 本科课程: --
  • 研究生课程: --
  • 科研方向: 能源材料、能量转换与存储、微纳器件与自驱动传感等领域的研究
  • 社会职务:Nano Energy(IF: 15.548)副主编,Appl. Mater. Today期刊编委,the Asian Adv. Mater. Congr.国际会议编委,中国化学会理事,国家自然科学基金、教育部科研基金和北京市科委重点项目评审专家,国际化学/材料类学术期刊Adv. Mater., Adv. Energy. Mater., ACS Nano, Nano Energy, Nano Research, Biosens. Bioelectron.等审稿专家
简历

2015/01~至今:美高梅4858mgm 化学与生物工程学院,教授 2011/06~2014/12:首都医科大学 化学生物学与药学院化学生物学系,副教授 2009/08~2010/08:韩国绿色能源国家重点实验室,研究教授 2006/07~2008/07:北京航空航天大学材料学院 材料科学与工程,博士后

科研业绩

近五年来在Energy Environ. Sci.、Adv. Mater.、Adv. Energy Mater.、Nano Energy、ACS Nano等国际先进期刊发表SCI论文100多篇,其中以第一编辑或第一通讯联系人发表SCI论文70篇,影响因子大于10的有60篇,最高影响因子33.25,平均影响因子15.680。近五年发表的论文被引2000余次,单篇最高引用次数275次;已申请专利40余项,其中授权专利20项,授权的专利已转换为成果,并实现产业化,其中摩擦起电教学教具、发电风车、摩擦电空气净化和新风系统(NairTeng)都已经上市;主持省部级项目10余项,在研经费高达2000多万元。

获得奖励/专利

教育部新世纪优秀人才”

招生计划

每年博士研究生1-2名,硕士研究生2名,本科学历要求为“211”及以上院校

代表性论文论著

 1.        Chen Y. D., Cheng Y., Jie Y., Cao X.*, Wang, N.*, Wang, Z. L.*.. Energy harvesting and wireless power transmission by a hybridized electromagnetic–triboelectric nanogenerator. Energy & Environmental Science, 2019, DOI: 10.1039/C9EE01245A.

2.        Cao X, Zhang M., Huang J. R., Jiang T., Zou J. D., Wang N. *, Wang Z. L. * Inductor-Free Wireless Energy Delivery via Maxwell’s Displacement Current from an Electrodeless Triboelectric Nanogenerator, Advanced Materials, 2018, 30: 1704077.

3.        Li Z. L., Chen J., Guo H. Y., Fan X., Wen Z., Yeh M. H., Yu C. W., Cao X.*, Wang Z. L.* Triboelectrification-Enabled Self-Powered Detection and Removal of Heavy Metal Ions in Wastewater, Advanced Materials, 2016, 28: 2983-2991.

4.        Tang W., Han Y., Han C. B., Gao C. Z., Cao X.*, Wang Z. L.* Self-powered Water Splitting Using Flowing Kinetic Energy. Advanced Materials, 2014, 27: 272-276.

5.        Jie Y., Ma J. M., Chen, Y. D., Cao X.*, Wang N.*, Wang Z. L.*. Efficient Delivery of Power Generated by a Rotating Triboelectric Nanogenerator by Conjunction of Wired and Wireless Transmissions Using Maxwell's Displacement Currents. Advanced Energy Materials, 2018, 8: 1802084.

6.        Zou J. D., Zhang M., Huang J .R., Bian J., Jie Y., Magnus W, Cao X.*, Wang N.*, Wang Z. L.*. Coupled Supercapacitor and Triboelectric Nanogenerator boost Biomimetic Pressure Sensor, Advanced Energy Materials, 2018, 8(10): 1702671.

7.        Jie Y., Jia X. T., Zou J. D., Chen Y. D., Wang N.*, Wang Z. L.*, Cao X.*. Natural leaf made triboelectric nanogenerator for harvesting environmental mechanical energy. Advanced Energy Materials, 2018, 8: 1703133.

8.        Li T., Xu Y., Xing F., Cao X.*, Bian J., Wang N.*, Wang Z. L.*. Boosting photoelectrochemical water splitting by TENG‐charged Li‐ion battery. Advanced Energy Materials, 2017, 7: 1700124.

9.        Chen S. W., Cao X.*, Wang N.*, Ma L., Zhu H. R., Willander M., Jie Y., Wang Z. L.*. An ultrathin flexible single‐electrode triboelectric‐nanogenerator for mechanical energy harvesting and instantaneous force sensing. Advanced Energy Materials, 2017, 7, 1601255.

10.    Cao X., Jie Y., Wang N.*, Wang, Z. L.*. Triboelectric nanogenerators driven self‐powered electrochemical processes for energy and environmental science. Advanced Energy Materials, 2016, 6: 1600665.

11.    Chen S. W., Wang N., Ma L., Li T., Willander M., Jie Y., Cao X.*, Wang Z. L.* Triboelectric Nanogenerator for Sustainable Wastewater Treatment via a Self‐Powered Electrochemical Process. Advanced Energy Materials, 2016,6: 1501778.

12.    Wu W. J.1, Cao X.1, Zou J. D, Ma Y., Wu X. H., Sun C. Z., Li M., Wang N.*, Wang Z. L.*, Zhang, L. Q.*. Triboelectric nanogenerator boosts smart green tires. Advanced Functional Materials, 2018: 1806331.

13.    Li T., Xu Y., Willander M., Xing F., Cao X. *, Wang N. *, Wang Z. L. *. Lightweight triboelectric nanogenerator for energy harvesting and sensing tiny mechanical motion. Advanced Functional Materials, 2016, 26: 4370-4376.

14.    Tang W., Jiang T., Fan F. R., Yu A. F., Zhang C., Cao X. *, Wang Z. L. *. Liquid‐metal electrode for high‐performance triboelectric nanogenerator at an instantaneous energy conversion efficiency of 70.6%. Advanced Functional Materials, 2015, 25: 3718-3725.

15.    Guo Y. L., Chen Y. D., Ma J. M., Zhu H. R., Cao X. *, Wang N. *, Wang Z. L. *. Harvesting wind energy: A hybridized design of pinwheel by coupling triboelectrification and electromagnetic induction effects. Nano Energy, 2019, 60: 641-648.

16.    Cheng Y., Wu D., Hao S. F., Jie Y., Cao X. *, Wang N. *, Wang Z. L. *. Highly stretchable triboelectric tactile sensor for electronic skin. Nano Energy, 2019, 64: 103907.

17.    Wang N., Zou J. D., Yang Y. X., Li X. Y., Guo Y. L., Jiang C., Jia X. T., Cao X. *.  Kelp-inspired biomimetic triboelectric nanogenerator boosts wave energy harvesting. Nano Energy, 2019, 55: 541-547.

18.    Wang N., Dou W., Hao S. F., Cheng Y., Zhou D., Huang X. M., Jiang C, Cao X.*. Tactile sensor from self-chargeable piezoelectric supercapacitor. Nano Energy, 2019, 56: 868-874.

19.    Wu, W. J., Yang T. X., Zhang Y. X., Wang F., Nie, Q. H., Ma Y., Cao, X.*,  Wang Z. L. *, Wang N. *, Zhang, L. Q.*. Application of Displacement-Current-Governed Triboelectric Nanogenerator in an Electrostatic Discharge Protection System for the Next-Generation Green Tire. ACS Nano, 2019, 13: 8202-8212.

20.    Guo H. J., Jia X. T., Liu L., Cao X. *, Wang N. *, Wang Z. L. *. Freestanding triboelectric nanogenerator enables noncontact motion-tracking and positioning. ACS Nano, 2018, 12: 3461-3467.

研究生培养情况

 近年来培养研究生39名,其中博士生11名,硕士生28名。

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