王宏飞，浙江宁海人，硕士生导师，博士毕业于中国科学技术大学物理化学专业，现为浙江师范大学化学与材料科学学院讲师。长期从事新型水系储能器件电极、电解质和隔膜材料的研究。主持浙江省自然科学基金1项、金华市科技局重大项目1项；参与国家自然科学基金面上项目2项、浙江省重大项目1项、浙江省重点项目1项；获中国发明协会创新奖创业奖一等奖1项。近年来，以第一作者/通讯作者在J. Am. Chem. Soc., Angew. Chem. Int. Ed., Chem, Adv. Energy Mater.等国际权威学术期刊上发表论文20余篇。喜欢打篮球。希望报考同学也能热爱运动，热爱生活，乐观开朗，共同为理想努力。发表代表性论文2025年度[1] Chen, Y.#; Yin, B.#; Zeng, Y.; Wang, H. F.*; Xie, B.-B.; Luan, D.; Hu, Y.*; Lou, X. W.*, Ion-dipole interaction manipulated bilateral interface chemistry for deep rechargeability and high redox activity of Zn-organic batteries. Chem 2025, 11, 102411.[2] Wang Y.#; Kong Y.#; Zhang T.; Chen C.; Wang H. F.*; Hu Y.*. Fluorine-functionalized chemistry toward stable Zn anode in aqueous Zn-ion batteries, Adv. Energy Mater. 2025, 15, 2502353. [3] Yang F.#; Tian C.#; Bai L.; Zhang T.; Wang H. F.*; Ning J.; Hu Y.*. Hierarchical array hosts with concave spatial confinement and zincophilic seed mediated growth for dendrite-free Zn metal anode. Compos. Part B-Eng. 2025, 301, 112528.[4] Lu H.; Yin B.; Zhang T.; Shao Y.; Zhong Y.; Wang H. F.*; Xie B.*; Zhong Y.; Hu Y.*, Dual-additive synergistic complementation electrolyte engineering with “job-sharing” modulation mechanism for long-lifespan Zn-iodine batteries. ACS Appl. Mater. Interfaces, 2025, 17, 21234-21245.2024年度[1] Tian, C.; Wang, H. F.*; Xie, L. Y.*; Zhong, Y. J.; Hu, Y.*, Arrays of hierarchical zincophilic nanorods with trapping-and-leveling deposition for ultrastable Zn metal anodes. Adv. Energy Mater. 2024, 14, 2400276.2023年度[1] Wang, H. F.#; Ye, W. Q.#; Yin, B. W.; Wang, K. X.; Riaz, M. S.; Xie, B. B.*; Zhong, Y. J.; Hu, Y.*, Modulating cation migration and deposition with xylitol additive and oriented reconstruction of hydrogen bonds for stable zinc anodes. Angew. Chem. Int. Ed. 2023, 62, e202218872.[2] Deng, Y. Q.#; Wang, H. F.#; Fan, M. H.; Zhan, B. X.; Zuo, L. J.; Chen, C.; Yan, L. F.*, Nanomicellar electrolyte to control release ions and reconstruct hydrogen bonding network for ultrastable high-energy-density Zn-Mn battery. J. Am. Chem. Soc. 2023, 145, 20109-20120.[3] Tian, C.#; Wang, J. L.#; Sun, R. X.; Ali, T.; Wang, H. F.*; Xie, B. B.*; Zhong, Y. J.; Hu, Y.*, Improved interfacial ion migration and deposition through the chain-liquid synergistic effect by a carboxylated hydrogel electrolyte for stable zinc metal anodes. Angew. Chem. Int. Ed. 2023, 62, e202310970.[4] Wang, H. F.; Riaz, M. S.; Ali, T.; Gu, J. W.; Zhong, Y. J.; Hu, Y.*, Organo-hydrogel electrolytes with versatile environmental adaptation for advanced flexible aqueous energy storage devices. Small Sci. 2023, 3, 2200104.早起[1] Wang, H. F.; Zhong, Y. J.; Ning, J. Q.; Hu, Y.*, Recent advances in the synthesis of non-carbon two-dimensional electrode materials for the aqueous electrolyte-based supercapacitors. Chin. Chem. Lett. 2021, 32, 3733-3752.[2] Wang, H. F.; Zhang, K. F.; Song, Y. Q.; Qiu, J.; Wu, J.; Yan, L. F.*, MnCo2S4 nanoparticles anchored to N- and S-codoped 3D graphene as a prominent electrode for asymmetric supercapacitors. Carbon 2019, 146, 420-429.[3] Wang, H. F.; Deng, Y. Q.; Qiu, J.; Wu, J.; Zhang, K. F.; Shao, J. W.; Yan, L. F.*, In situ formation of “dimethyl sulfoxide/water-in-salt”-based chitosan hydrogel electrolyte for advanced all-solid-state supercapacitors. ChemSusChem 2021, 14, 632-641.