M. Sc. Hui Wang

Topics of research

– Electrode Materials for Sodium-ion Batteries

– Electrode Reactions

– Inhibit Dendrite Growth

Educational background

Doctoral degree

 – Humboldt University of Berlin, Germany (2020-present)

Program: Chemistry, Prof. Adelhelm

 Master’s degree

– Shenzhen University, China (2017-2020)

 Program: Chemistry Engineering; Prof. Wang

Thesis topic: Research on the preparation and application of nickel、cobalt and cerium oxides for lithium-oxygen batteries

 Bachelor’s degree

– Kunming University of Science and Technology, China (2011-2015) Program: Renewable Resources Science and Technology

Awards & Accomplishments

– 2020-2023 CSC study scholarship (China Scholarship Council)

Program: Ph.D. scholarship

–2019: Excellent Graduate Scholarship in SZU

–2018: Excellent Graduate Scholarship in SZU

–2015: Chinese National Endeavor Scholarship   

–2014: First -Level Scholarship in KMUST

–2013: Second-Level Scholarship in KMUST

–2012:  Third-Level Scholarship in KMUST

Conferences & Visits

2018

– October, 2018: Xian, China.

2018 China Sol-Gel Symposium and International Forum

Poster topic: Free-standing CoO@Ni Cathode with Oxygen Vacancies for High-performance Lithium-oxygen Batteries

Publications

2019

 – Wang, H., Wang, H.J., Huang, J.S., Wang F. (2019). Hierarchical mesoporous/macroporous Co-doped NiO nanosheet arrays as free-standing electrode materials for rechargeable Li-O2 batteries. ACS Applied Materials & Interfaces,11(47): 44556-44565.   https://doi.org/10.1021/acsami.9b13329

– Wang, H. Chen, H. Z., Wang, H. J., Wu, L., Luo, Z. K., Wang, F.(2019) Hierarchical porous FeCo2O4@Ni as a carbon- and binder-free cathode for lithium-oxygen batteries. Journal of Alloys and compounds, 780 , 107-115. https://doi.org/10.1016/j.jallcom.2018.11.231

– Wang, A.Q., Wang, H., Deng, H., Wang, S., Shi,W., Yi, Z. X., Qiu, R. L., Yan, K. (2019) Controllable synthesis of mesoporous manganese oxide microsphere efficient for photo-Fenton-like removal of fluoroquinolone antibiotics. Applied Catalysis B: Environmental248, 298-308.https://doi.org/10.1016/j.apcatb.2019.02.034

2018

– Wang, F., Liu, W., Wang, H., Meng, C.C., Wu, Q. X., Zhou, X.L., Luo, Z. K. (2018) Reduced Co3O4 nanowires with abundant oxygen vacancies as an efficient free-standing cathode for Li–O2 batteries.Catalysis science & Technology,8, 6487-6485.https://doi.org/10.1039/C8CY01583J