Professor

Tang Jun

Date:2023-08-07       Click:

 

Tang Jun, Assistant Professor

 

Profile:

Jun Tang, Assistant Professor, is one of Shenzhen's overseas high level "Peacock Plan" Category C talents. He graduated from Peking University with a doctorate degree in July 2020, mainly engaged in the research of new energy storage materials and devices and their key technologies. During his doctoral study, he received a grant from the National CSC Study Abroad Fund and was sent to Drexel University in the United States for joint training to study the development of new two-dimensional transition metal carbon nitride materials for energy storage applications. After graduation, he joined the Faculty of Materials Science and Engineering of Southern University of Science and Technology as a postdoctoral researcher. He has published more than ten papers in leading journals such as Adv. Energy. Mater, Angew. Chem. Int. Ed, Energy. Storage. Mater and J. Mater. Chem. A as the "first author", and has been approved 3 national invention patents (as of July 2022).

 

Academic Background:

August 2016 - July 2020 Peking University, Advanced Materials and Mechanics, Doctoral Program

October 2018 - October 2019 Drexel University (Pennsylvania, USA), Joint Education Doctoral Program

September 2011 - July 2014 Lanzhou University, Condensed Matter Physics, Master's Degree

August 2007 - July 2011 Dalian University of Technology, Applied Physics, Bachelor's Degree

 

Work Experience:

July 2022 - Present Shenzhen Technology University, School of New Materials and New Energy, Assistant Professor

August 2020 - June 2022 Southern University of Science and Technology, Faculty of Materials Science and Engineering, Postdoctoral Fellow

February 2015 - August 2016 Southern University of Science and Technology, School of Materials Science and Engineering, Research Assistant

August 2014 - December 2014 Pulead Technology Industry Co., Ltd., Technical Engineer

 

Major Honors:

Selected as Category C Talent in Shenzhen Peacock Plan in 2021

 

Research Interests:

1. Research on new energy storage materials and devices and their key technologies; development of supercapacitor, sodium ion battery, dry electrode technology and battery recycling technology;

2. Novel two-dimensional transition metal carbon nitride (MXenes) in the energy field, infrared detection shielding stealth, terahertz absorption, electromagnetic shielding and other fields of application.

 

Research Projects:

1. Shenzhen Knowledge Innovation Program Basic Research Project, November 2020, RMB 1.5 million, participant

 

Representative Papers: (published as first author)

[1] J. Tang, T.S. Mathis, X. Zhong, X. Xiao, H. Wang; M. Anayee, F. Pan, B. Xu, Y. Gogotsi, Optimizing Ion Pathway in Titanium Carbide MXene for Practical High-Rate SupercapacitorAdvanced Energy Materials11 (2021) 2003025.

[2] J. Tang, T.S. Mathis, N. Kurra, A. Sarycheva, X. Xiao, M.N. Hedhili, Q. Jiang, H.N. Alshareef, B. Xu, F. Pan, Y. Gogotsi, Tuning the Electrochemical Performance of Titanium Carbide MXene by Controllable In Situ Anodic OxidationAngewandte Chemie International Edition. 58 (2019) 17849–17855.

[3] J. Tang, W. Yi, X. Zhong, C. (John) Zhang, X. Xiao, F. Pan, B. Xu, Laser writing of the restacked titanium carbide MXene for high performance supercapacitorsEnergy Storage Materials32 (2020) 418–424.

[4] J. Tang, H. Wan, L. Chang, B. Hu, S. Cui, Y. Chen, W. Chen, J. Hao, H. Tang, X. Wang, K. Wang*, C. (John) Zhang*, Q. Wen, X. Xiao*, B. Xu*, Tunable Infrared Sensing Properties of MXenes Enabled by IntercalantsAdvanced Optical Materials (2022)., 2200623.

[5] J. Tang, L. Zhang, X. Zhong, X. Wang, F. Pan, B. Xu, A laser synthesis of vanadium oxide bonded graphene for high-rate supercapacitorsJournal of Energy Chemistry. 49 (2020) 174–178.

[6] J. Tang, D. Liu, Y. Zheng, X. Li, X. Wang, D. He, Effect of Zn-substitution on cycling performance of α-Co(OH)2 nanosheet electrode for supercapacitorsJournal of Materials Chemistry A. 2 (2014) 2585–2591.

[7] J. Tang, X. Zhong, H. Li, Y. Li, F. Pan, B. Xu, In-situ and selectively laser reduced graphene oxide sheets as excellent conductive additive for high rate capability LiFePO4 lithium ion batteriesJournal of Power Sources. 412 (2019) 677–682.

[8] S. Cui, J. Tang, B. Hu, P. Wang, J. Guo, Y. Peng, X. Wang, B. Xu*, In situ fabrication of dry/gel bilayer Ti3C2Tx films for high-rate micro-supercapacitors. Chemical Communications (2022), 58, 8954-8957.

[9] L. Zhang, J. Tang, S. Liu, O. Peng, R. Shi, B. Chandrashekar, Y. Li, X. Li, X. Li, B. Xu, C. Cheng, A laser irradiation synthesis of strongly-coupled VOx-reduced graphene oxide composites as enhanced performance supercapacitor electrodesMaterials Today Energy. 5 (2017) 222–229.

[10] X. Xiao, W. Yao, J. Tang, C. Liu, R. Lian, P. Urbankowski, M. Anayee, S. He, J. Li, H. Wang, Y. Gao, Y. Wei, Y. Gogotsi, Interconnected Two-dimensional Arrays of Niobium Nitride Nanocrystals as Stable Lithium HostBatteries & Supercaps. 1 (2021) 106-111.

 

Published Papers:

[1] W. Chen, R. Guo, H. Tang, K. S. Wienhold, N. Li, Z. Jiang, J. Tang, X. Jiang, L. P. Kreuzer, H. Liu, M. Schwartzkopf, X. Wei Sun, S. V. Roth, K. Wang, B. Xu, P. Müller-Buschbaum, Operando structure degradation study of PbS quantum dot solar cells, Energy & Environmental Science 2021, 14, 3420-3429.

[2] H. Wan, N. Liu, J. Tang, Q. Wen, X. Xiao, Substrate-Independent Ti3C2Tx MXene Waterborne Paint for Terahertz Absorption and Shielding, ACS Nano 2021, 15, 8, 13646–13652.

[3] X. Zhong, S. Ye, J. Tang, Y. Zhu, D. Wu, M. Gu, H. Pan, B. Xu, Engineering Pt and Fe dual-metal single atoms anchored on nitrogen-doped carbon with high activity and durability towards oxygen reduction reaction for zinc-air battery, Applied Catalysis B: Environmental 2021, 286, 119891.

[4] X. Zhong, Y. Li, L. Zhang, J. Tang, X. Li, C. Liu, M. Shao, Z. Lu, H. Pan, B. Xu, High-Performance Sodium-Ion Batteries Based on Nitrogen-Doped Mesoporous Carbon Spheres with Ultrathin Nanosheets, ACS Appl. Mater. Interfaces 2019, 11, 2970.

[5] X. Zhong, L. Zhang, J. Tang, J. Chai, J. Xu, L. Cao, M. Yang, M. Yang, W. Kong, S. Wang, H. Cheng, Z. Lu, C. Cheng, B. Xu, H. Pan, Efficient coupling of a hierarchical V2O@Ni3 S2 hybrid nanoarray for pseudocapacitors and hydrogen production, Journal of Materials Chemistry A 2017, 5, 17954.

[6] X. Li, J. Zhang, Q. Feng, C. Pu, L. Zhang, M. Hu, X. Zhou, X. Zhong, W. Yi, J. Tang, Z. Li, X. Zhao, H. Li, B. Xu, Redox inactive ion meliorated BaCo0.4Fe0.4Zr0.1Y0.1O3−δ perovskite oxides as efficient electrocatalysts for the oxygen evolution reaction, Journal of Materials Chemistry A 2018, 6, 17288.

[7] X. Zhong, J. Tang, J. Wang, M. Shao, J. Chai, S. Wang, M. Yang, Y. Yang, N. Wang, S. Wang, B. Xu, H. Pan, 3D heterostructured pure and N-Doped Ni3S2/VS2 nanosheets for high efficient overall water splitting, Electrochimica Acta 2018, 269, 55.

[8] X. Zhong, J. Tang, L. Cao, W. Kong, Z. Sun, H. Cheng, Z. Lu, H. Pan, B. Xu, Cross-linking of polymer and ionic liquid as high-performance gel electrolyte for flexible solid-state supercapacitors, Electrochimica Acta 2017, 244, 112.

[9] J. Wu, C. Liu, X. Deng, L. Zhang, M. Hu, J. Tang, W. Tan, Y. Tian, B. Xu, Simple and low-cost thiophene and benzene-conjugated triaryamines as hole-transporting materials for perovskite solar cells, RSC Advances 2017, 7, 45478.

[10] Y. Zheng, L. Qiao, J. Tang, Z. Yang, H. Yue, D. He, Electrochemically deposited interconnected porous Co3Onanoflakes as anodes with excellent rate capability for lithium ion batteries, RSC Advances 2015, 5, 36117.

[11] X. Li, L. He, X. Zhong, J. Zhang, S. Luo, W. Yi, L. Zhang, M. Hu, J. Tang, X. Zhou, X. Zhao, B. Xu, Evaluation of A-Site Ba2+-Deficient Ba1-xCo0.4Fe0.4Zr0.1Y0.1O3-δ Oxides as Electrocatalysts for Efficient Hydrogen Evolution Reaction, Scanning 2018, 2018, 1341608.

 

Patent Information:

 [1] Xu Baomin, Tang Jun, Li Yan, Li Haiqiao; A single-layer multi-material conductive circuit board and preparation method; Invention Patent; Patent No. ZL201710322381.9

 [2] Xu Baomin, Tang Jun, Zhong Xiongwei; A method for mass production of graphene powder by laser reduction; Invention Patent; Patent No. ZL201711013571.9

 [3] Xu Baomin, Zhong Xiongwei, Sun Zheng, Lu Yanwen, Tang Jun, Li Xiangnan, Zhang Jie; A gel electrolyte and its preparation method, gas sensor and application; Invention patent; Patent No. ZL201711003282.0

 

Contact Information:

E-mail: tangjun3@sztu.edu.cn