Ning Wang

Position：Home 首页 > Faculty > Department of Physics

Ning Wang

Professor

office location:

E-mail:wangning@ustb.edu.cn

Research Interests:1. Tactile Sensor, Energy Conversion, Electrochemistry

Resume

2016.08-present: Professor, Department of Physics, University of Science and Technology Beijing (USTB), China; 2010. 08-2016. 07: Associate professor, Department of Chemistry, Beihang University (BUAA), China; 2014.3-2016.3 Associate Professor, Department of Chemistry, Dongguk University, Seoul Korea 2012.5-2014.3, Research Scientist, Department of Chemistry, Hanyang University, Seoul Korea

Scientific research achievements

Enrollment plan

1-2 PhD student and 2 Master students per year

Representative papers

1. Zhou, D.; Xue, L.; Wang, L.; Wang, N.; Lau, W.-M.; Cao, X., Self-chargeable sodium-ion battery for soft electronics. Nano Energy 2019, 61, 435-441. 2. Cheng, Y.; Wu, D.; Hao, S.; Jie, Y.; Cao, X.; Wang, N.; Wang, Z. L., Highly stretchable triboelectric tactile sensor for electronic skin. Nano Energy 2019, 64, 103907. 3. Chen, Y.; Cheng, Y.; Jie, Y.; Cao, X.; Wang, N.; Wang, Z. L., Energy harvesting and wireless power transmission by a hybridized electromagnetic–triboelectric nanogenerator. Energ Environ Sci 2019. 4. Guo, Y.; Chen, Y.; Ma, J.; Zhu, H.; 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. 5. Ning Wang, Jingdian Zou, Yixuan Yang, Xiayu Li, Yilin Guo, Chao Jiang, Xueting Jia, Xia Cao, Kelp-inspired biomimetic triboelectric nanogenerator boosts wave energy harvesting. Nano Energy 2019, 55, 541–547. 6. Ning Wang, Wei Dou, Saifei Hao, Yu Cheng, Dan Zhou, Xiaomin Huang, ChaoJiang, Xia Cao. Tactile sensor from self-chargeable piezoelectric supercapacitor. Nano Energy 2019, 56, 868–874. 7. Wenjie Wu; Xia Cao; Jingdian Zou; Yong Ma; Xiaohui Wu; Chongzhi Sun; Mei Li; Ning Wang.*; Zhonglin Wang, Liqun, Zhang. Triboelectric Nanogenerator Boosts Smart Green Tires. Advanced Functional Materials, 2019, 1806331. 8. Yang Jie, Jinming Ma, Yandong Chen, Xia Cao, Ning Wang.*, Zhong Lin Wang, 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, 5, 1802084. 9. Jie Bian, N. Wang.*, Jinming Ma, Yang Jie, Jingdian Zou, Xia Cao, Stretchable 3D Polymer for Simultaneously Mechanical Energy Harvesting and Biomimetic Force Sensing. Nano Energy 2018, 47, 442-450. 10. Huijuan Guo, X. J., Lu Liu, Xia Cao, Ning Wang.*, Zhong Lin Wang, Freestanding Triboelectric Nanogenerator Enabled Enables Noncontact Motion-Tracking and Positioning Acs Nano 2018, 018, 12(4), 3461–3467 11. Y. Jie, X. T. J., J. D. Zou, Y. D. Chen, X. Cao, Wang, N.*, Z. L.Wang, Natural Leaf Made Triboelectric Nanogenerator for Harvesting Environmental Mechanical Energy. Advanced Energy Materials 2018, 1703133. 12. Ma, J.; Zhou, T.; Bian, J.; Jie, Y.; Cao, X.; Wang, N.*, Dopamine polymerization tunes triboelectric interface. Nano Energy 2018, 44, 199-207. 13. Xia Cao, M. Z., Jinrong Huang, Tao Jiang, Jingdian Zou, Wang, N.*g, Zhong Lin Wang, Inductor-free wireless energy delivery via Maxwell's displacement current from an electrodeless triboelectric nanogenerator. Advanced Materials 2018, 1704077. 14. Xing, F.; Li, T.; Li, J.; Zhu, H.; Wang, N.*; Cao, X., Chemically exfoliated MoS2 for capacitive deionization of saline water. Nano Energy 2017, 31, 590-595. 15. Xing, F.; Jie, Y.; Cao, X.; Li, T.; Wang, N.*, Natural Triboelectric Nanogenerator Based on Soles for Harvesting Low-Frequency Walking Energy. Nano Energy 2017. 16. Ma, J. M.; Jie, Y.; Bian, J.; Li, T.; Cao, X.; Wang, N.*, From triboelectric nanogenerator to self-powered smart floor: A minimalist design. Nano Energy 2017, 39, 192-199. 17. Li, T.; Zou, J.; Xing, F.; Zhang, M.; Cao, X.; Wang, N.*; Wang, Z. L., From Dual-Mode Triboelectric Nanogenerator to Smart Tactile Sensor: A Multiplexing Design. Acs Nano 2017, 11 (4), 3950-3956. 18. 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 (15). 19. Jingdian Zou, M. Z., Jinrong Huang, Jie Bian, Yang Jie, Magnus Willander, Xia Cao, Ning Wang and Zhong Lin Wang, Coupled Supercapacitor and Triboelectric Nanogenerator boost Biomimetic Pressure Sensor. Advanced Energy Materials 2017. DOI: 10.1002/aenm.201702671 20. Guo, H.; Li, T.; Cao, X.; Xiong, J.; Jie, Y.; Willander, M.; Cao, X.; Wang, N.*; Wang, Z. L., Self-Sterilized Flexible Single-Electrode Triboelectric Nanogenerator for Energy Harvesting and Dynamic Force Sensing. Acs Nano 2017, 11 (1), 856-864. 21. 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 (1). 22. Zhu, H.; Wang, N.*; Xu, Y.; Chen, S.; Willander, M.; Cao, X.; Wang, Z. L., Triboelectric Nanogenerators Based on Melamine and Self-Powered High-Sensitive Sensors for Melamine Detection. Advanced Functional Materials 2016, 26 (18), 3029-3035. 23. Zhang, M.; Jie, Y.; Cao, X.; Bian, J.; Li, T.; Wang, N.*; Wang, Z. L., Robust design of unearthed single-electrode TENG from three-dimensionally hybridized copper/polydimethylsiloxane film. Nano Energy 2016, 30, 155-161. 24. 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 (24), 4370-4376. 25. Jie, Y.; Zhu, H.; Cao, X.; Zhang, Y.; Wang, N.*; Zhang, L.; Wang, Z. L., One-Piece Triboelectric Nanosensor for Self-Triggered Alarm System and Latent Fingerprint Detection. Acs Nano 2016, 10 (11), 10366-10372. 26. Jie, Y.; Jiang, Q.; Zhang, Y.; Wang, N.*; Cao, X., A structural bionic design: From electric organs to systematic triboelectric generators. Nano Energy 2016, 27, 554-560. 27. Chen, S.; Wang, N.(co-first author); 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 (8). 28. 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 (23). 29. Cao, X.; Cao, X.; Guo, H.; Li, T.; Jie, Y.; Wang, N.*; Wang, Z. L., Piezotronic Effect Enhanced Label-Free Detection of DNA Using a Schottky-Contacted ZnO Nanowire Biosensor. Acs Nano 2016, 10 (8), 8038-8044. 30. Wang, N.; Xu, Y.; Han, Y.; Gao, C.; Cao, X., Mesoporous Pd@M (M = Pt, Au) microrods as excellent electrocatalysts for methanol oxidation. Nano Energy 2015, 17, 111-119. 31. Wang, N.; Han, Y.; Xu, Y.; Gao, C.; Cao, X., Detection of H2O2 at the Nanomolar Level by Electrode Modified with Ultrathin AuCu Nanowires. Analytical Chemistry 2015, 87 (1), 457-463. 32. Wang, N.; Gao, C.; Xue, F.; Han, Y.; Li, T.; Cao, X.; Zhang, X.; Zhang, Y.; Wang, Z. L., Piezotronic-Effect Enhanced Drug Metabolism and Sensing on a Single ZnO Nanowire Surface with the Presence of Human Cytochrome P450. Acs Nano 2015, 9 (3), 3159-3168. 33. Wang, N.; Gao, C.; Han, Y.; Huang, X.; Xu, Y.; Cao, X., Detection of human immunoglobulin G by label-free electrochemical immunoassay modified with ultralong CuS nanowires. Journal of Materials Chemistry B 2015, 3 (16), 3254-3259. 34. Jie, Y.; Wang, N.(co-first author); Cao, X.; Xu, Y.; Li, T.; Zhang, X.; Wang, Z. L., Self-Powered Triboelectric Nanosensor with Poly(tetrafluoroethylene) Nanoparticle Arrays for Dopamine Detection. Acs Nano 2015, 9 (8), 8376-8383. 35. Han, Y.; Gao, C.; Zhu, H.; Chen, S.; Jiang, Q.; Li, T.; Willander, M.; Cao, X.; Wang, N.*, Piezotronic effect enhanced nanowire sensing of H2O2 released by cells. Nano Energy 2015, 13, 405-413. 36. Cao, X.; Wang, N.*; Han, Y.; Gao, C.; Xu, Y.; Li, M.; Shao, Y., PtAg bimetallic nanowires: Facile synthesis and their use as excellent electrocatalysts toward low-cost fuel cells. Nano Energy 2015, 12, 105-114.

Postgraduate training