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[1]Li, J. , Liang, H. , Li, N. , ... Yang, Z. , Xia, Y., Regioisomerism-guided interfacial design toward stable zinc metal anodes,Energy and Environmental Science, 2025, 18(24), 页 10338–10350
[2]Li, J. , Long, Y. , Yu, X. , ... Wang, J. , Yang, Z., Polymeric acid additive strategy for long-lifetime aqueous zinc-ion batteries , Energy Storage Materials, 2025, 76, 104154
[3]Li, J. , Han, J. , Li, N. , ... Yang, Z. , Liu, X., Article Enhancing zinc anode stability via dual-additive electrolyte engineering , Chemical Communications, 2025, 61(48), 8747–8750
[4]Han, J. , Long, Y. , Li, J. , ... Gu, H. , Yang, Z., A molecular with triazine platform and triethanol arms for ultra-long cycle life Zn anodes , Nano Energy, 2025, 144, 111352
[5]Li, J. , Zhang, S. , Yu, X. , ... Han, J. , Yang, Z, Enhancing long-term cycling stability in aqueous zinc-ion batteries via effective control of bulk electrolyte with biomass-derived multifunctional additive . Nano Energy,, 2025, 141, 111049
[6]Han, J. , Long, Y. , Li, J. , ... Gu, H. , Yang, Z, Thiol-thione tautomerism-mediated electrolyte additive engineering for stable Zn metal anodes . Journal of Energy Chemistry, 2025, 111, 896–903
[7]Yu, X. , Liang, H. , Li, J. , ... Li, N. , Yang, Z., Strategy for Using Electrolyte Additives to Regulate Zinc-Ion Battery Anode Interfaces via Tautomerism , Nano Letters, 2025, 25(12), 5043–5051
[8]Liang, H. , Wu, J. , Xu, J. , ... Yu, X. , Yang, Z, Inert Group-Containing Electrolyte Additive Enabling Stable Aqueous Zinc-Ion Batteries . Small, 2024, 20(16), 2307322
[9]Li, J. , Liang, H. , Long, Y. , ... Wang, J. , Yang, Z, Dual-function protective layer for highly reversible Zn anode . Journal of Energy Chemistry, 2024, 98, 12–23
[10]Li, J. , Liang, H. , Wu, J. , ... Wang, J. , Yang, Z.,Zinc saponite protection layer with fast zinc-ion transfer kinetics to enable highly reversible Zn anode , Chemical Engineering Journal, 2024, 484, 149503
[11]Yu, X. , Liang, H. , Li, J. , ... Han, J. , Yang, Z, Interfacial coordination effects for uniform and reversible zinc anode deposition . Nano Energy, 2024, 130, 110114
[12]Liang, H. , Wu, J. , Li, J. , ... Yang, Z, Achieving Dendrite-Free and By-Product-Free Aqueous Zn-Ion Battery Anode via Nicotinic Acid Electrolyte Additive with Molecule-Ion Conversion Mechanism , Small, 2024, 20(38), 2402595
[13]Cai, J. , Wang, J. , Yu, X. , Long, Y. , Yang, Z., ZnO quantum dots@covalent organic frameworks for high-performance alkaline zinc-based batteries , Journal of Materials Chemistry A, 2023, 11,25692–25702
[14]In situ growth of ZnO nanosheets on Ti3C2Tx MXene for Superior-Performance Zinc-Nickel secondary battery,Chemical Engineering , 2023,451, 139073
[15]Long, J.; Yang, Z(杨占红)*.Sheet-Like Carbon-Coated Zn-Al-Bi Layered Double Oxides Nanocomposites Enabling High Performance for Rechargeable Alkaline Batteries,Journal of the Electrochemical Society, 2017 , 164 (13) :A3068-A3074
[16]Liu Y, Yang Z.(杨占红)* Intercalation of sulfate anions into a Zn–Al layered double hydroxide: their synthesis and application in Zn–Ni secondary batteries[J]. RSC Advances, 2016, 6(73): 68584-68591
[17]Liming Wang, Z. Yang (杨占红)*, Formation of porous ZnO microspheres and its application as anode material with superior cycle stability in zinc-nickel secondary batteries, Journal of Power Sources 396C (2018) pp. 615-620
[18]Xing Wen, Zhanhong Yang(杨占红)*,The effects of element Cu on the electrochemical performances of Zinc-Aluminum-hydrotalcites in Zinc/Nickel secondary battery, ElectrochimicaActa 180(2015) pp. 451-459
[19]Wang L. ; Yang Z(杨占红)*, Zinc Aluminum Antimony Hydrotalcite as Anode Materials for Ni-Zn Secondary Batteries,Journal of the Electrochemical Society, 2017 , 164 (14) : A3692-A3698
[20]Linlin Chen, Zhanhong Yang*, Advanced electrochemical performance of ZnMn2O4/N-doped graphene hybrid as cathode material for zinc ion battery, Journal of Power Sources , 2019, 425,162-169
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