Tang Shaochun Professor Address: Room 324, Science and Technology Building Email: tangsc@nju.edu.cn Statistics Link of Papers Published in SCI: | |
Research Field: [1] Carbon based nanocomposites and sensors [2] Super capacitor / lithium (nano) battery materials and flexible devices [3] Catalysis and interface effect of polymetallic nano [4] Development and application of thin-film electrothermal component Courses: Thermology (a foundation course for undergraduates); Experiment on Materials Science and Engineering (an experiment course for undergraduates); Electronic Microscopy (part of the course, required for graduate students); Development in Materials Science and Engineering (a required course for graduate students) Profile: Tang Shaochun graduated from Nanjing University and obtained a doctorate in materials science in 2008. In the same year, he joined the faculty of the College of Modern Engineering and Applied Sciences, Nanjing University and served as a lecturer, associate professor and professor. Currently, he has been selected into the national science and technology award expert database, and he is an editorial board member of the international journal SCI. Rep., a young-and-middle-aged science and technology leader of the 333 Project of Jiangsu Province, a high-level talent of Six Talent Peaks Project of Jiangsu Province, a trainee of the Doctor Gathering Plan of Jiangsu Province, a member of the Chinese Materials Research Society, a member of the Chinese Society for Composite Materials, and a doctoral dissertation reviewer of the Ministry of Education, an evaluation expert of the high-tech enterprises in the field of engineering materials of Jiangsu Province, and an consultant expert of science and technology in the Department of Science and Technology of Jiangsu Province. He has successively taken charge of research projects such as the Young Scientists Fund Program and the General Program of the National Natural Science Foundation, the General Program of Natural Science Foundation of Jiangsu Province, the Key Technologies R&D Program (Engineering) of Jiangsu Province, the Production-teaching-research Joint Innovation Fund Project of Jiangsu Province and the Enterprise Supported Horizontal Projects. As a core academic person, he participated in two projects of the 973 Program of the Ministry of Science and Technology, key projects of the National Natural Science Foundation, major achievements transformation projects of Jiangsu Province and so on. He has published more than 90 SCI papers in international authoritative journals, including more than 50 SCI papers as the first or corresponding author. These papers have been cited by SCI for more than 2,000 times, with an H-index of 25, and 4 of those papers have been cited for more than 130 times, with a maximum of 170 times for a single paper. Two of his Adv. Energy. Mater. papers have been selected into the top 1% Highly Cited Papers in the field of energy materials; 1 Chem. Commun paper has been selected into the top 1% Highly Cited Papers in the field of materials; and 1 SCI review paper has been awarded Excellent Article Award by a well-known international academic journal in the field of materials. He wrote 6 chapters of monographs in Chinese and English. His research achievements have won him 8 science and technology awards above the provincial level and 4 science and technology progress awards at the municipal level, including the second price of the National Science and Technology Progress Award by the Ministry of Education (ranking the first), the second price of Jiangsu Science and Technology Progress Award (ranking the second), and the 2018 Jiangsu Science and Technology Progress Award (ranking the first). He has more than 20 authorized national patents, two of which were awarded the 17th China patent award of excellence and the 8th Jiangsu patent award of excellence. In student education, he was awarded the 2016 Innovative Education Award of Nanjing University and was awarded the title of the Excellent Instructor in Practice Teaching of Nanjing University in 2017. Three master's theses he supervised were awarded the title of the Excellent Master’s Thesis of Jiangsu Province, and one undergraduate thesis he supervised was awarded the first prize in Nanjing University. He was the Excellent Instructor of the 7th and 8th Material Innovation Competition for College Students. Science and Technology Awards above the Provincial Level: The third price of 2018 Jiangsu Science and Technology Progress Award (ranking the first) The second price of 2015 National Science and Technology Progress Award by the Ministry of Education (ranking the first) The second price of 2015 Jiangsu Science and Technology Progress Award (ranking the second) the 17th China patent award of excellence in 2015 (ranking the second) The second price of 2010 National Science and Technology Progress Award by the Ministry of Education The second price of 2011 National Science and Technology Progress Award by the Ministry of Education The third price of 2012 Jiangsu Science and Technology Progress Award The 8th China Patent Award of Excellence in 2013 Research Achievements: Representative SCI papers published in the recent 3 years Note: * refers to corresponding author [1] Song, Weijie, Wu, Juan, Wang, Gengjie, Tang, Shaochun,* Chen, Gang, Cui, Mingjin, & Meng, Xiangkang. (2018). Rich-mixed-valence NixCo3-xPy porous nanowires interwelded junction-Free 3D network architectures for ultrahigh areal energy density supercapacitors. Advanced Functional Materials, 28, 1804620. [2] Tang, Shaochun, Zhu, Baogang, Shi, Xiling, Wu, Juan, & Meng, Xiangkang. (2017). General controlled sulfidation toward achieving novel nanosheet-built porous square-FeCo2S4-tube arrays for high-performance asymmetric all-solid-state pseudocapacitors. Advanced Energy Materials, 7, 1601985. (Top 1% highly cited paper) [3] Zhu, Jian, Tang, Shaochun,* Wu, Juan, Shi, Xiling, Zhu, Baogang, & Meng, Xiangkang. (2017). Wearable high-performance supercapacitors based on silver-sputtered textiles with FeCo2S4-NiCo2S4 composite nanotube-built multitripod architectures as advanced flexible electrodes. Advanced Energy Materials, 7, 1601234 . (Top 1% highly cited paper) [4] Syed, Junaid Ali, Ma, Jun, Zhu, Baogang, Tang, Shaochun,* & Meng, Xiangkang. (2017). Hierarchical multicomponent electrode with interlaced Ni(OH)2 nanoflakes wrapped zinc cobalt sulfide nanotube arrays for sustainable high-performance supercapacitors. Advanced Energy Materials, 7, 1701228. [5] Wu, Juan, Shi, Xiling, Song, Weijie, Ren, Hua, Tan, Changbin, Tang, Shaochun,* & Meng, Xiangkang. (2018). Hierarchically porous hexagonal microsheets constructed by well-interwoven MCo2S4 (M = Ni, Fe, Zn) nanotube networks via two-step anion-exchange for high-performance asymmetric supercapacitors. Nano Energy, 45, 439-447. [6] Zhu, Baogang, Tang, Shaochun,* Vongehr, Sascha, Xie, Hao, Zhu, Jian, & Meng, Xiangkang. (2016). FeCo2O4 submicron-tube arrays grown on Ni foam as high rate-capability and cycling-stability electrodes allowing superior energy and power densities with symmetric supercapacitors. Chemical Communications, 52, 2624-2627. (Top 1% highly cited paper) [7] Zhu, Baogang, Tang, Shaochun,* Vongehr, Sascha, Xie, Hao, & Meng, Xiangkang. (2016). Hierarchically MnO2-nanosheet covered submicrometer-FeCo2O4-tube forest as binder-free electrodes for high energy density all-solid-state supercapacitors. ACS Applied Materials and Interfaces, 8, 4762-4770. [8] Zhu, Jian, Tang, Shaochun,* Xie, Hao, Dai, Yuming, & Meng, Xiangkang. (2014). Hierarchically porous MnO2 microspheres doped with homogeneously distributed Fe3O4 nanoparticles for supercapacitors. ACS Applied Materials & Interfaces, 6, 17637-17646. [9] Tang, Shaochun, Vongehr, Sascha, Wang, Yongguang, Cui, Juan, Wang, Xiangyu, & Meng, Xiangkang. (2014). Versatile synthesis of high surface area multi-metallic nanosponges allowing control over nanostructure and alloying for catalysis and SERS detection. Journal of Materials Chemistry A, 2, 3648-3660. [10] Xie, Hao, Tang, Shaochun,* Zhu, Jian, Vongehr, Sascha, & Meng, Xiangkang. (2015). A high energy density asymmetric all-solid-state supercapacitor based on cobalt carbonate hydroxide nanowire covered N-doped graphene and porous graphene electrodes. Journal of Materials Chemistry A, 3, 18505-18513. [11] Niu, Richao, Wang, Gengjie, Ding, Yuying, Tang, Shaochun,* Hu, Xuemin, & Zhu, Junwu. (2019). Hexagonal prism arrays constructed by ultrathin porous nanoflakes of carbon doped mixed-valance Co-Mn-Fe phosphides for ultrahigh areal capacitance and remarkable cycling stability. Journal of Materials Chemistry A, 7, 4431-4437. [12] Cui, Mingjin, Tang, Shaochun,* Ma, Yujie, Shi, Xiling, Syed, Junaid Ali, & Meng, Xiangkang. (2018). Monolayer standing MnO2-nanosheet covered Mn3O4 octahedrons Anchored in 3D n-graphene networks for asymmetric supercapacitors with remarkable cycling stability. Journal of Power Sources, 396, 483-490. [13] Xie, Hao, Tang, Shaochun,* Li, Dongdong, Vongehr, Sascha, & Meng, Xiangkang. (2017). Flexible asymmetric supercapacitors based on nitrogen-doped graphene hydrogels with embedded nickel hydroxide nanoplates. ChemSusChem, 10, 2301-2308. Authorized Patents: [1] Tang, Shaochun, Meng, Xiangkang, Li, Nanting, Wang, Yongguang, & Wang, Xiangyu. (2016). A preparation method of controlled graphene oxide. Chinese Patent No. ZL201410145171.3. [2] Tang, Shaochun, Zhu, Baogang, Meng, & Xiangkang. (2015). Foamed nickel supported ferrite submicron tube electrode materials and their preparation method. Chinese Patent No. ZL201510589098.3. [3] Tang, Shaochun, Meng, Xiangkang, Li, Nanting, & Gao, Wenhua. (2016). One step microwave preparation of bimetal / carbon layered composite spheres. Chinese Patent No. ZL201210298558.3. [4] Tang, Shaochun, Li, Gujun, Zhao, Weibo, Shi, Weixiao, Lin, Liexiong, & Meng, Xiangkang. (2016). Preparation of carbon coated polyhedral silver nanoparticles and controllable self-assembly. Chinese Patent No. ZL2013101903222. [5] Tang, Shaochun, etc. (2017). Copper nanoparticle uniformly doped submicron carbon sphere composite and its one-step synthesis method. Chinese Patent No. ZL201410145522.0. [6] Tang, Shaochun, etc. (2017). Large scale preparation of nanocrystalline nickel wire with precise size control. Chinese Patent No. ZL 201210298515.5. [7] Tang, Shaochun, Li, Tianyu, etc. (2016). A combined ultrasonic assisted ultraviolet and ozone device for fruit and vegetable cleaning. Chinese Patent No. ZL201520886501.4. [8] Tang, Shaochun, Meng, Xiangkang, & Zheng, Zhou. (2013). Microporous carbon spheres filled with silver nanoparticles, their preparation and application as catalysts. Chinese Patent No. ZL201010255943.0. [9] Tang, Shaochun, Meng, Xiangkang, Wang, Yongguang, & Ren, hua. (2013). Preparation of monodisperse spherical porous palladium nano catalyst. Chinese Patent No. ZL201210013757.5. [10] Tang, Shaochun, Meng, Xiangkang, Su, Yingjie, Chen, Lan, Wang, Yang, & Zheng, Zhou. (2013). A method for the preparation of coralline cobalt hydroxide electrode material. Chinese Patent No.ZL201110253871.0. [11] Gao, Wenhua, Tang, Shaochun, & Wang Xiangyu. (2015). Multi purpose microwave high temperature sintering furnace. Chinese Patent No. ZL201420556025.5. [12] Gao, Wenhua, Tang, Shaochun, & Zhu, Jian. (2014). A cabinet type ultrasonic microwave ultraviolet combined reaction system. Chinese Patent No. ZL201320424003.9. [13] Meng, Xiangkang, Tang, Shaochun, Zhu, Shaopeng, & Zhu, Yanfeng. Preparation of copper octahedral nanoparticles with large area and uniform distribution. Chinese Patent No. ZL200710190291.5. [14] Meng, Xiangkang, Tang, Shaochun, Zhu, Shaopeng, Lu, Haiming, Li, Pingyun, Zhao, Chenlin, & Chen, Yanfeng. One step synthesis and assembly of copper nanoparticles. Chinese Patent No. ZL200710191014.6 [15] Meng, Xiangkang, Tang, Shaochun, Tang, Yuefeng, He, Weiye, Huang, Jianguo, Ding, Daoning, Chen, Yanfeng, & Liu, Zhiguo. Preparation of metal dielectric composite particles with nano silver coated silica. Chinese Patent No. ZL200610161202.X. [16] Meng, Xiangkang, Tang, Shaochun, & Chen, Yanfeng. Synthesis of supported silver nanostructures. Chinese Patent No. ZL200810124408.4. [17] Gao, Wenhua, Tang, Shaochun, etc. A cabinet type ultrasonic microwave ultraviolet light combination reaction system. Chinese Patent No. ZL201320424003.9. [18] Gao, Wenhua, Tang, Shaochun, etc. Multi purpose microwave high temperature sintering furnace. Chinese Patent No. ZL201320424004.3. [19] Meng, Xiangkang, Lu, Hongbin, Hu, Yong, Gu, Minhao, & Tang, Shaochun. (2012). A preparation method of high performance metal protective nano coating. Chinese Patent No. ZL200910024505.0. [20] Meng, Xiangkang, Huang, Jianfeng, Lu, Hongbin, Gu, Minhao, Chen, Lan, & Tang, Shaochun. (2011). A highly efficient catalytic active nano material and its preparation method. Chinese Patent No. ZL200910183351.X. Postgraduate Admission: One associate researcher, one or two postdoctoral students, and three graduate students majoring in materials or energy are admitted every year. Students interested in energy materials research are welcome to join us. Student Advisement: Of the 16 graduate students he has supervised, 8 have graduated, and the honors won by these graduate students are as follows: Zhu Jian, The Samsung Scholarship (2014) Zhu Jian, National scholarship for graduate students (2015) Zhu Jian, Excellent Master’s Student(2014, 2015) Xie Hao, Excellent Master’s Student (2014, 2015) Zhu Baogang, Excellent Master’s Student (2015, 2016) Zhu Baogang, National scholarship for graduate students (2016) Zhu Weijie, National scholarship for graduate students (2018) Zhu Weijie, Excellent Master’s Student (2017, 2018) 4 students were awarded the Excellent Master’s Students of Nanjing University (2016 Zhujian, 2016 Xie Hao, 2017 Zhu Baogang, 2019 Song Weijie). Zhu Jian's and Xie Hao’s master’s theses were awarded the title of the Excellent Master Thesis of Jiangsu Province in 2017. Zhu Baogang’s master’s thesis was awarded the title of the Excellent Master’s Thesis of Jiangsu Province in 2018. Zhang Pinghui was awarded the first prize of the Excellent Undergraduate Graduation Thesis of Nanjing University in 2015 Nine undergraduate students’ innovation training programs (independently guided) were rated excellent (1 in 2013, 1 in 2014, 2 in 2015, 2 in 2016, 2 in 2017 and 1 in 2018)
|