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| Yao Yagang Professor Address: Room 910, Science Building, Gulou Campus, Nanjing University E-mail: ygyao2018@nju.edu.cn Website of Research Group: www.yaogroup.net |
| Our research group welcomes talented graduates who are willing to engage in research on thermal management materials, new energy materials and devices and join our group as master’s students, doctoral students or students from joint programs. Our group also welcomes upper division undergraduate students who are willing to join us and engage in research! We also have openings for post-doctoral fellows and full-time researchers (i.e., assistant researchers or associate researchers) Profile: Yao Yagang graduated from the College of Chemistry & Chemical Engineering, Lanzhou University, in July 2004 and was sent by recommendation to the College of Chemistry and Molecular Engineering, Peking University, for the co-terminal M.S. / Ph.D. program. After he received his doctorate in July 2009, he was recruited as a post-doctoral fellow by Georgia Institute of Technology and in 2014 became a researcher at Suzhou Institute of Nano-Tech and Nano-Bionics, Chinese Academy of Sciences. In 2018, he joined the faculty of the College of Engineering and Applied Sciences,Nanjing University. His research focuses on the synthesis control of low dimension materials and its application on flexible storage devices and thermal management, by which systematic system results have been achieved in terms of the design and control devices on high thermal conductivity materials and flexible storage devices and its integration. He was awarded by the Science Fund for Outstanding Young Scholars (the National Natural Science Foundation), the Recruitment Program of Global Experts, “Innovative and Entrepreneurial Talents” of Jiangsu, “Jinji Lake 200 Talents” of Suzhou Industrial Park, and the 100 National Excellent Doctoral Dissertations. He has published more than 100 papers on first-class international journals such as Nature Materials, Advanced Materials、Nano letters, Journal of the American Chemical Society, ACS Nano, Advanced Science, Advanced Functional Materials, Nano Energy, and Energy Storage Materials. Research Fields Fundamental research on high performance thermal interface materials; flexible energy storage devices and integration Research Achievements (Selected Publications) Note: * refers to corresponding author [1] Yao, Yagang, Li, Qinwen, Zhang, Jin,* Liu, Ran Jiao, Liying, Zhu, Yuntian T., & Liu, Zhongfan.* (2007). Temperature-mediated growth of single-walled carbon nanotube intramolecular junctions. Nat. Mater., 6, 283. [2] Yao, Yagang, Feng, Chaoqun, Zhang, Jin,* & Liu, Zhongfan.* (2009). Cloning’ of single-walled carbon nanotubes via open-end growth mechanism. Nano Lett, 9, 1673. [3] Yao, Yagang, Dai, Xiaochuan, Feng, Chaoqun, Zhang, Jin,* Liang, Xuelei, Ding, Li, Choi, Wonmook, Kim, JongMin, Choi, JaeYoung,* & Liu, Zhongfan.* (2009). Crankling ultralong carbon nanotubes into serpentines via landing-controlled process. Adv. Mater., 21, 4158. (Inside cover) [4] Wang, Miao, Li, Taotao, Yao, Yagang,* Lu, Huifen, Li, Qiang,* Chen, Minghai, & Li, Qingwen. (2014). Wafer-scale transfer of vertically aligned carbon nanotube arrays. J. Am. Chem. Soc., 136, 18156−18162. [5] Zhang, Qichong, Wang, Xiaona, Pan, Zhenghui, Sun, Juan, Zhao, Jingxin, Zhang, Jun, Zhang, Cuixia, Tang, Lei, Luo, Jie, Song, Bin, Zhang, Zengxing,* Lu, Weibang, Li, Qingwen, Zhang, Yuegang, & Yao, Yagang.* (2017). Wrapping aligned carbon nanotube composite sheets around vanadium nitride nanowire arrays for asymmetric coaxial fiber shaped supercapacitors with ultrahigh energy density. Nano Lett., 17, 2719–2726. [6] Zhang, Qichong, Sun, Juan, Pan, Zhenghui, Zhang, Jun, Zhao, Jingxin, Wang, Xiaona, Zhang, Cuixia, Yao, Yagang,* Lu, Weibang, Li, Qingwen, Zhang, Yuegang, & Zhang, Zengxing.* (2017). Stretchable fiber-shaped asymmetric supercapacitors with ultrahigh energy density. Nano Energy, 39, 219–228. [7] Zhang, Qichong, Xu, Weiwei, Sun, Juan, Pan, Zhenghui, Zhao, Jingxin, Wang, Xiaona, Zhang, Jun , Man, Ping, Guo, Jiabin, Zhou, Zhenyu, He, Bing, Zhang, Zengxing, Li, Qingwen, Zhang, Yuegang, Xu, Lai,* & Yao, Yagang.* (2017). Constructing ultrahigh-capacity zinc−nickel−cobalt oxide@Ni(OH)2 core−shell nanowire arrays for high-performance coaxial fiber-shaped asymmetric supercapacitors. Nano Lett., 17, 7552-7560. [8] Zhao, Jingxin, Li, Huayang, Li, Chaowei, Zhang, Qichong, Sun, Juan, Wang, Xiaona, Guo, Jiabin, Xie, Liyan, Xie, Jixun, He, Bing, Zhou, Zhenyu, Lu, Conghua, Lu, Weibang, Zhu, Guang, & Yao, Yagang.* (2018). MOF for template-directed growth of well-oriented nanowire hybrid arrays on carbon nanotube fibers for wearable electronics integrated with triboelectric nanogenerators. Nano Energy, 45, 420-431. [9] Zhao, Jingxin, Lia, Lili, Zhang, Yan, Li, Chaowei, Zhang, Qichong, Peng, Jianhong, Zhao, Xiaoxin, Li, Qiulong, Wang, Xiaona, Xie, Jixun, Sun, Juan, He, Bing, Lu, Conghua, Lu, Weibang, Zhang, Ting,* & Yao, Yagang.* (2018). Novel coaxial fiber-shaped sensing system integrated with an asymmetric supercapacitor and a humidity sensor. Energy Storage Materials, 15, 315-323. [10] Zhou, Zhenyu, Zhang, Qichong, Sun, Juan, He, Bing, Guo, Jiabin, Li, Qiulong, Li, Chaowei, Xie, Liyan, & Yao, Yagang.* (2018). Metal−organic framework derived spindlelike carbon incorporated α Fe₂O₃ grown on carbon nanotube fiber as anodes for high-performance wearable asymmetric supercapacitors. ACS Nano, 12, 9333−9341. [11] Zhao, Jingxin, Zhang, Yan, Huang, Yinan, Xie, Jixun, Zhao, Xiaoxin, Li, Chaowei, Qu, Jingyi, Zhang, Qichong, Sun, Juan, He, Bing, Li, Qiulong, Lu, Conghua,* Xu, Xinhua, Lu, Weibang, Li, Liqiang, & Yao, Yagang.* (2018). 3D printing fiber electrodes for an all-fiber integrated electronic device via hybridization of an asymmetric supercapacitor and a temperature sensor. Adv. Sci., 1801114. [12] Zhang, Qichong, Zhou, Zhenyu, Pan, Zhenghui, Sun, Juan, He, Bing, Li, Qiulong, Zhang, Ting, Zhao, Jingxin, Tang, Lei, Zhang, Zengxing, Wei, Lei,* & Yao, Yagang.* (2018). All-metal-organic framework-derived battery materials on carbon nanotube fibers for wearable energy-storage device. Adv. Sci., 1801462. [13] Li, Chaowei, Zhang, Qichong, Sun, Juan, Li, Taotao, E, Songfeng, Zhu, Zezhou, He, Bing, Zhou, Zhenyu Li, Qiulong, & Yao, Yagang.* (2018). High performance quasi-solid-state flexible aqueous rechargeable Ag-Zn battery based on metal-organic-framework derived Ag nanowires. ACS Energy Lett.. (DOI: 10.1021/acsenergylett.8b01675.) The annual intake of doctoral students is 1-2 (including students of the accelerated B.S. / Ph.D. program and the co-terminal M.S. / Ph.D. program). The annual intake of master’s students is 2-3 and that of undergraduate students is 2-3. In addition, the intake of outstanding post-doctoral and full-time researchers is 2-3. Priority is given to researchers engaged in thermal management, composites and flexible & wearable energy devices and materials, and the salary is negotiable. Contact: ygyao2018@nju.edu.cn
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