Associate Professor

Phone: (027)87543881

Email: nishuang_liu@foxmail.com

Academic Areas: Material Physics

Research Interests: Material Physics

 

Nishuang Liu received his B.S. degree in Electronic Science and Technology (2006) and his Ph.D. in Microelectronics and Solid State Electronics (2011) from Wuhan University, China. He joined in Huazhong University of Science and Technology (HUST) from 2011, and his main research interests include sensors, energy storage device and self-powered nanosystems.

Academic Degrees

PhD in Microelectronics and Solid State Electronics, 2011, Wuhan University.

Professional Experience

2015-Presen : Associate Professor, Huazhong University of Science and Technology;

2011-2014: Lecturer , Huazhong University of Science and Technology.

Selected Publications

1. N. S. Liu, W. Z. Ma, J. Y. Tao, X. H. Zhang, J. Su, L. Y. Li, C. X. Yang, Y. H. Gao, D. Golberg, Y. Bando, Cable-Type Supercapacitors of Three-Dimensional Cotton Thread Based Multi-Grade Nanostructures for Wearable Energy Storage, Advanced Materials, 2013, 25, 4925.

2. N. S. Liu *, J. Li, W. Z. Ma, W. J. Liu, Y. L. Shi, J. Y. Tao, X. H. Zhang, J. Su, L. Y. Li, Y. H. Gao*, Ultrathin and Lightweight 3D Free-Standing Ni@NiO Nanowire Membrane Electrode for a Supercapacitor with Excellent Capacitance Retention at High Rates, ACS Applied Materials & Interfaces, 2014, 6, 13627.

3 W. J. Liu, N. S. Liu *, Y. L. Shi, Y. Chen, C. X. Yang, J. Y. Tao, S. L. Wang, Y. M. Wang, J. Su, L. Y. Li and Y. H. Gao*, Wire-shaped flexible asymmetric supercapacitor based on carbon fiber coated with a metal oxide and a polymer. Journal of Materials Chemistry A, 2015, 3, 13461.

4. J. Y. Tao, N. S. Liu *, J. Y. Rao, L. W. Ding, M. R. Al-bahrani, L. Y. Li, J. Su, Y. H. Gao*, Series Asymmetric Supercapacitors Based on Free-standing Inner-Connection Electrodes for High Energy Density and High Output Voltage, Nanoscale, 2014, 6, 15073.

5. J. Y. Tao, N. S. Liu *, W. Z. Ma, L. W. Ding, L. Y. Li, J. Su, Y. H. Gao, Solid-State High Performance Flexible Supercapacitors Based on Polypyrrole-MnO2-Carbon Fiber Hybrid Structure, Scientific Reports, 2013, 3, 2286.

6. J. Y. Tao, N. S. Liu *, L. Y. Li, J. Su, Y. H. Gao, Hierarchical nanostructures of polypyrrole@MnO2 composite electrodes for high performance solid-state asymmetric supercapacitors, Nanoscale, 2014, 6, 2922.

7. H. X. Li, Zhang, X. H. Zhang, N. S. Liu *, L. W. Ding, Tao, J. Y. Tao, S. L. Wang, J. Su, L. Y. Li, Y. H. Gao, Enhanced photo-response properties of a single ZnO microwire photodetector by coupling effect between localized Schottky barriers and piezoelectric potential, Optics Express, 2015, 23, 21204.

8. N. S. Liu, W. W. Tian, X. H. Zhang, J. Su, Q. Zhang, Y. H. Gao, Enhancement of ultraviolet detecting by coupling the photoconductive behavior of GaN nanowires and p-n junction, Optics Express, 2012, 20, 20748-20753.

9. N. S. Liu, G. J. Fang, W. Zeng, H. Long, L. Yuan, X. Z. Zhao, Diminish the screen effect in field emission via patterned and selective edge growth of ZnO nanorod arrays, Applied Physics Letters, 2009, 95, 153505. (IF: 3.794)

10. N. S. Liu, G. J. Fang, W. Zeng, H. Long, X. Zou, Y. P. Liu, X. Z. Zhao, High Performance ZnO Nanorod Strain Driving Transistor Based Piezoelectric CMOS Logic Gates, Applied Physics Letters, 2010, 97, 243504.

11. N. S. Liu, G. J. Fang, J. W. Wan, H. Zhou, H. Long, X. Z. Zhao, Electrospun PEDOT:PSS–PVA nanofiber based ultrahigh-strain sensors with controllable electrical conductivity, Journal of Materials Chemistry, 2011, 21, 18962.

12. N. S. Liu, G. J. Fang, W. Zeng, H, Zhou, H. Long, X. Z. Zhao, Enhanced field emission from three-dimensional patterned carbon nanotube arrays grown on flexible carbon cloth, Journal of Materials Chemistry, 2012, 22, 3478.

13. N. S. Liu, G. J. Fang, W. Zeng, H. Zhou, F. Cheng, Q. Zheng, L. Yuan, X. Zou, X. Z. Zhao, Direct Growth of Lateral ZnO Nanorod UV Photodetectors with Schottky Contact by a Single-Step Hydrothermal Reaction, ACS Applied Materials & Interfaces, 2010, 2, 1973.

14. N. S. Liu, G. J. Fang, W. Zeng, H. Long, L. Yuan, X. Z. Zhao, Novel ZnO Nanorod Flexible Strain Sensor and Strain Driving Transistor with an Ultra High 107 Scale “on”-“off” Ratio, Journal of Physical Chemistry C, 2011, 115, 570.

15. N. S. Liu, G. J. Fang, W. Zeng, H. Long, X. Fan, L. Yuan, X. Zou, Y. P. Liu, X. Z. Zhao, Strong Effect of Interelectrode Distance on the Performance of a Novel ZnO Nanorod Lateral Field Emission Device Fabricated by a Single-Step Hydrothermal Approach, Journal of Physical Chemistry C, 2010, 114, 8575.

16. N. S. Liu, G. J. Fang, W. Zeng, H. Long, X. Z. Zhao, Giant Enhancement of Field Emission from Selectively Edge Grown ZnO–Carbon Nanotube Heterostructure Arrays via Diminishing the Screen Effect, Journal of Physical Chemistry C, 2011, 115, 14377.

17. N. S. Liu, G. J. Fang, X. X. Yang, W. Zeng, C. Li, M. J. Wang, J. Li, X. Z. Zhao, Synthesis of patterned carbon nanotube arrays for field emission using a two layer Sn/Ni catalyst in an ethanol flame, Diamond & Related Materials, 2009, 18, 1375.

18. S. L. Wang, N. S. Liu *, J. Y. Tao, C. X. Yang, W. J. Liu, Y. L. Shi, Y. M. Wang, J. Su, L. Y. Li and Y. H. Gao*, Inkjet Printing of Conductive Patterns and Supercapacitors Using Multi-Walled Carbon Nanotubes/Ag Nanoparticles Based Ink, Journal of Materials Chemistry A, 2015, 3, 2407.

19. C. X. Yang, Y. L. Shi, N. S. Liu *, J. Y. Tao, S. L. Wang, W. J. Liu, Y. M. Wang, J. Su, L. Y. Li and Y. H. Gao*, Freestanding and flexible graphene wrapped MnO2/MoO3 nanoparticle based asymmetric supercapacitors for high energy density and output voltage, RSC Advances, 2015, 5, 45129.

20. S. L. Wang, N. S. Liu *, C. X. Yang, W. J. Liu, , J. Su, L. Y. Li, C. P. Yang and Y. H. Gao*, Fully screen printed highly conductive electrodes on various flexible substrates for asymmetric supercapacitors, RSC Advances, 2015, 5, 85799.

21. L. W. Ding#, N. S. Liu#, L. Y. Li#, X. Wei, X. H. Zhang, J. Su, J. Y. Rao, C. X. Yang, W. Z. Li, J. B. Wang, H. S. Gu and Y. H. Gao*, Graphene-Skeleton Heat-Coordinated and Nanoamorphous-Surface-State Controlled Pseudo-Negative-Photoconductivity of Tiny SnO2 Nanoparticles, Advanced Materials, 2015, 27, 3525. 

Awards and Honors

National Natural Science Foundation of China, Grant No.11204093.

Courses Taught

• Modern physics experiment;

• College physics experiment.

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