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Haijian Huang*,Hao Feng,Ziyu He,Yanan Huang,Jiawei Xu,Chengzhi Hu,Zhangxian Chen,Zeheng Yang,Weixin Zhang*,Enhancing Zn2+/H+ Joint Charge Storage in MnO2: Concurrently Tailoring Mn's Local Electron Density and O's p‑Band Center:ACS Nano,2024,18(37):25601−25613.
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Haijian Huang*,Jiawei Xu,Yanan Huang,Ziyu He,Hao Feng,Chengzhi Hu,Zhangxian Chen,Zeheng Yang,Tian Tian*,Weixin Zhang*,Adjusting Interface Dynamics: A New Insight into the Role of Electrolyte Additive in Facilitating Highly Reversible (002)-Textured Zinc Anode at High Current and Areal Densities:Advanced Energy Materials,2024,14(21):2401643.
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Zijian Yang,Xiaohao Liu*,Xiaotong Ma,Taoding Cao,Jiawei Xu,Hao Feng,Rui Diao,Fenglei Qi,Haijian Huang*,Peiyong Ma*,Efficient preparation of biomass-based ultra-thin 2D porous carbon materials by in situ template-activation and its application in sodium ion capacitors:Advanced Functional Materials,2024,34(22):2310717.
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Haijian Huang*,Juwei Yun,Hao Feng,Tian Tian*,Jiawei Xu,Deli Li,Xue Xia,Zeheng Yang,Weixin Zhang*,Towards High-Performance Zinc Anode for Zinc Ion Hybrid Capacitor: Concurrently Tailoring Hydrodynamic Stability, Zinc Deposition and Solvation Structure via Electrolyte Additive:Energy Storage Materials,2022(55):857-866.
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Haijian Huang,Xue Xia,Juwei Yun,Cheng Huang,Deli Li,Bingbing Chen,Zeheng Yang,Weixin Zhang*,Interfacial engineering of hydrated vanadate to promote the fast and highly reversible H+/Zn2+ co-insertion processes for high-performance aqueous rechargeable batteries:Energy Storage Materials,2022(52):473-484.
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Haijian Huang,Li Wei,Tian Tian,Taoding Cao,Feng Cheng,Zhangxian Chen,Zeheng Yang,Binghui Ge,Mingliang Tian,Weixin Zhang*,Markus Niederberger,Beyond conventional sodium-ion storage mechanisms: a combinational intercalation/conversion reaction mechanism in Ni-ion modified hydrated vanadate for high-rate sodium-ion storage:Energy Storage Materials,2022(47):579-590.
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Xue Xia,Juwei Yun,Cheng Huang,Deli Li,Zeheng Yang,Haijian Huang*,Weixin Zhang*,Ca/Ni Codoping Enables the Integration of High-Rate and HighCapacity Zn-Ion Storage Performances for Layered Hydrated Vanadate:Industrial & Engineering Chemistry Research,2022,61(12):4212-4221.
