School of Chemical Engineering and Technology
Associate professor
022-27405372
022-27401097
yingtao@tju.edu.cn
School of Chemical Engineering and Technology,Tianjin University
Ying Tao is an associate professor in School of Chemical Engineering and Technology at Tianjin University. She received her B.S. degree in chemical engineering and technology from the Ocean University of China in 2009 and her Ph.D. in applied chemistry from the Tianjin University in 2014. She then became a Postdoc at the Northwestern University before joining Tianjin University in 2016. Her main research interests focus on the assembly of low dimensional materials, carbon-based materials and their applications in electrochemical energy storage devices and environmental remediation.
- Doctor of Engineering| Tianjin University| Applied Chemistry| 2019
- Bachelor of Engineering| Ocean University of China| Chemical Engineering and Technology| 2019
- Controlled construction and properties of graphene-based novel porous carbon
- Carbon-based materials and their application in electrochemical energy storage
- Carbon-based materials and their application in environmental remediation
- Papers
- [1] 1. Tao, Y.; Xie, X.; Lv, W.; Tang, D. M.; Kong, D.; Huang, Z.; Nishihara, H.; Ishii, T.; Li, B.; Golberg, D.; Kang, F.; Kyotani, T.; Yang, Q. H. Towards Ultrahigh Volumetric Capacitance: Graphene Derived Highly Dense but Porous Carbons for Supercapacitors. Scientific Reports 2013, 3, 2975.
- [2] 2. Tao, Y.; Kong, D.; Zhang, C.; Lv, W.; Wang, M.; Li, B.; Huang, Z.-H.; Kang, F.; Yang, Q.-H. Monolithic Carbons with Spheroidal and Hierarchical Pores Produced by the Linkage of Functionalized Graphene Sheets. Carbon 2014, 69, 169-177.
-
- [3] 3. Xu, Y.; Tao, Y.; Zheng, X.; Ma, H.; Luo, J.; Kang, F.; Yang, Q.-H. A Metal-Free Supercapacitor Electrode Material with a Record High Volumetric Capacitance over 800 F Cm-3. Advanced Materials 2015, 27, 8082-8087.
- [4] 4. Li, H.; Tao, Y.; Zheng, X.; Luo, J.; Kang, F.; Cheng, H.-M.; Yang, Q.-H. Ultra-Thick Graphene Bulk Supercapacitor Electrodes for Compact Energy Storage. Energy & Environmental Science 2016, 9, 3135-3142.
- [5] 5. Wei, W.; Tao, Y.; Lv, W.; Su, F.-Y.; Ke, L.; Li, J.; Wang, D.-W.; Li, B.; Kang, F.; Yang, Q.-H. Unusual High Oxygen Reduction Performance in All-Carbon Electrocatalysts. Scientific Reports 2014, 4, 6289.
- [6] 6. Li, H.; Tao, Y.; Zheng, X. Y.; Li, Z. J.; Liu, D. H.; Xu, Z.; Luo, C.; Luo, J. Y.; Kang, F. Y.; Yang, Q. H. Compressed Porous Graphene Particles for Use as Supercapacitor Electrodes with Excellent Volumetric Performance. Nanoscale 2015, 7, 18459-18463.
- [7] 7. Xu, Y.; Tao, Y.; Li, H.; Zhang, C.; Liu, D.; Qi, C.; Luo, J.; Kang, F.; Yang, Q.-H. Dual Electronic-Ionic Conductivity of Pseudo-Capacitive Filler Enables High Volumetric Capacitance from Dense Graphene Micro-Particles. Nano Energy 2017, 36, 349-355.
- [8] 8. Tao, Y.; Yang, Q.-H. Graphene Assembly and Texture Control: Solution-Processed Methods for Carbonaceous Functionalized Materials. Chinese Science Bulletin (Chinese Version) 2014, 59, 3293-3305.
- [9] 9. Tao Ying, L. H., Yang Quan-Hong Compact Energy Storage: Opportunities and Challenges of Graphene for Supercapacitors. Energy Storage Science and Technology 2016, 5, 781-787.
- [10] 10. Zhang, C.; Lv, W.; Tao, Y.; Yang, Q. H. Towards Superior Volumetric Performance: Design and Preparation of Novel Carbon Materials for Energy Storage. Energy & Environmental Science 2015, 8, 1390-1403.
- Patents
- [1] 2. High-density and high-hardness graphene-based porous carbon material, method for making the same, and applications using the same cross-reference to related applications, Grand No.: ZL 1210255166.9 (Also apply for PCT and USA patents)
- [2] 1. Graphene based porous macroassembly and its preparation, Grand No.: ZL 201010568996.8