LecturerTel:
Email:nz_wang@hbut.edu.cn
IntroductionNengze Wang, lecturer at the School of Electrical and Electronic Engineering, Hubei University of Technology. His research focuses on materials, battery devices, and energy storage systems for high-performance aqueous metal batteries. In the past five years, has published over 10 papers as first/co-first author in internationally renowned journals. He holds 5 authorized national invention patents as an inventor, two of which have been transferred. Has received multiple provincial/national innovation and entrepreneurship awards, including a National silver award in the "Internet+" competition, and won a Project Award in the Invention and Entrepreneurship Award from the China Association of Inventions. Has established a certain experimental and theoretical foundation regarding the optimization mechanisms of electrolyte materials and devices for high-performance next-generation energy storage batteries.
Education ExperienceSeptember 2024 – August 2025, Singapore University of Technology and Design, Engineering Product Design, Visiting Scholar.
September 2021 – June 2025, University of Electronic Science and Technology of China, Electronic Information, Ph.D degree.
September 2018 – June 2021, Hubei University, Electronics and Communication Engineering, Master degree.
September 2014 – June 2018, Hubei University of education, Electronic Information Science and Technology, Bachelor degree.
Work ExperienceJul. 2025 - present, Hubei University of Technology, School of Electrical and Electronic Engineering, Lecturer
Digital Video Technology, Engineering Project Management Graduate: Computer Vision
High-Safety Energy Storage Battery and Sensor Monitoring System; Intelligent Biomimetic and Thermal Control Materials
[1] Wang N.#, Zhang M.#, Zhao N., et al. High interfacial stability eutectic gel electrolyte for high-temperature rechargeable zinc metal batteries. Small Struct., 2026, 7, 202500711. (IF:11.3, invited paper)
[2] Sun M.#; Wang N.#, Yang H.Y. How Entropy of Electrolytes Effects Aqueous Rechargeable Zinc Metal Batteries: A Review. Small Methods, 2026, 10, 02185. (IF:9.1, invited paper)
[3] Wang N., Zhang M., Ren X., et al. High-Entropy Deep Eutectic Solvent Achieves Ultra‐Low Polarization Zinc Anode Chemistry. Angew. Chem. Int. Ed., 2025, 62, 202502761. (IF:16.9, Nature Index journal)
[4] Wang Y.#; Wang N.#,*, Wu Z., et al. Nanofullerene regulated electric field to achieve stable Sn metal anode for aqueous Sn batteries. Rare Met., 2025, 44, 3869. (IF:11)
[5] Wang N., Sun M., Ren X., et al. Extending temperature windows of practical zinc batteries by water-locking hydrated eutectic solvents. Energy Storage Mater., 2024, 68, 103333. (IF:20.2)
[6] Lv J.#; Wang N.#, Gan Z., et al. Deep learning-assisted research on high-performance electrolyte for zinc-ion capacitors. J. Power Sources, 2024, 621, 235303. (IF: 7.9)
[7] Wang N., Liu H., Sun M., et al. Achieving wide-temperature-range sustainable zinc-ion batteries via magnesium-doped cathodes and gel electrolytes. ACS Sustain. Chem. Eng., 2024, 12, 3527. (IF:7.3)
[8] Wang N.#, Chen X.#, Wan H.*, et al. Zincophobic electrolyte achieves highly reversible zinc‐ion batteries, Adv. Funct. Mater., 2023, 33, 2300795. (IF:19, Nature Index journal, the top 10% of the most popular papers published on AFM in 2023, highly cited by ESI)
[9] Wang N., Zhang Y., Yuan J., et al. A synergistic strategy of organic molecules introduced a high Zn2+ flux solid electrolyte interphase for stable aqueous zinc-ion batteries. ACS Appl. Mater. Interfaces, 2022, 14, 48081. (IF:8.2)
[10] Wang N., Wan H.*, Duan J., et al. A review of zinc-based battery from alkaline to acid. Mater. Today Adv., 2021, 11, 100149. (IF:8, invited paper)
1. Outstanding Graduate of Sichuan Province.
2. Academic Report on Outstanding Young People at China Materials Conference 2024 and the 2nd World Materials Conference.
3. The 29th National Invention Exhibition·" Belt and Road" and the BRICS Skills Development and Technology Innovation Competition (2/5).
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