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[1]Construction of Co/Ni-Free P2-layered Metal Oxide Cathode with High Reversible Oxygen Redox for Sodium Ion Batteries.Chemical Engineering Journal, 2022: 138912 (IF=13.273).
[2]Electron-deficient Sites for Improving V2+/V3+ Redox Kinetics in Vanadium Redox Flow Batteries.Advanced Functional Materials, 2022, 2111661: 通讯作者 (IF=18.808).
[3]Nature of bismuth and antimony based phosphate nanobundles/graphene for superior potassium ion batteries.Chemical Engineering Journal, 2022, 435: 134746 通讯作者 (IF=13.273).
[4]Insight into the Mechanism of Axial Ligands Regulating the Catalytic Activity of Fe–N4 Sites for Oxygen Reduction Reaction.Advanced Energy Materials, 2022, 2103588: (IF=29.368).
[5]Domain-Confined Etching Strategy to Regulate Defective Sites in Carbon for High-Efficiency Electrocatalytic Oxygen Reduction.Advanced Functional Materials, 2022, 2111396: (IF=18.808).
[6]Reversible K0.54V2O5 Nanorods for High-Performance Aqueous Zinc-Ion Batteries.ACS Applied Energy Materials, 2022: 通讯作者 (IF=6.024).
[7]Metal-Complex-Assisted Synthesis of SnSe Nanorods for Lithium-Ion-Battery Anodes.ACS Applied Nano Materials, 2021, 4: 13010–13017 通讯作者 (IF=5.097).
[8]Non-precious transition metal based electrocatalysts for vanadium redox flow batteries: Rational design and perspectives.Journal of Power Sources, 2021, 515: 230640 通讯作者 (IF=9.127).
[9]Bimetal-organic-framework derived CoTiO3/C hexagonal micro-prisms as high-performance anode materials for Metal ion batteries.Materials Chemistry Frontiers, 2021, 5: 5760-5768 通讯作者 (IF=6.482).
[10]Defect engineering of molybdenum disulfide for energy storage.Materials Chemistry Frontiers, 2021, 5: 5880-5809 通讯作者 (IF=6.482).
[11]Insights into Metal/Metalloid-Based Alloying Anodes for Potassium Ion Batteries.ACS Materials Lett., 2021, 3: 1572–1598 第一作者 (IF=8.312).
[12]Dual Substitution Strategy in Co-Free Layered Cathode Materials for Superior Lithium Ion Batteries.ACS Appl. Mater. Interfaces, 2021, 13: 18733–18742 通讯作者 (IF=9.229).
[13]Fe induction strategy for hollow porous N-doped carbon with superior performance in oxygen reduction.Chemical Communication, 2021, 57: 7108-7111 通讯作者 (IF=6.222).
[14]Jue Wang, Bingan Lu, Bin Wang.Nature of Novel 2D van der Waals Heterostructures for Superior Potassium Ion Batteries.Advanced Energy Materials, 2020, 10: 2000884 (高被引论文) 第一作者 (IF=25.245).
[15]Zhaomeng Liu#, Jue Wang#, Bingan Lu.Plum Pudding Model Inspired KVPO4F@3DC as High-Voltage and Hyperstable Cathode for Potassium Ion Batteries.Science Bulletin, 2020, 65: 1242–1251(高被引论文) 共同第一作者 (IF=9.511).
[16]Hongbo Ding, Jue Wang, Xinzhi Yu, Xinxin Jia, Zhaomeng Liu, Ling Fan, Bingan Lu.Sn-Sb compounds with novel structure for stable potassium storage.Chemical Engineering Journal, 2020, 395: 125147 (IF=10.652).
[17]Erjin Zhang, Xinxin Jia, Bin Wang, Jue Wang, Xinzhi Yu, Bingan Lu.Carbon Dots@rGO Paper as Freestanding and Flexible Potassium‐Ion Batteries Anode.Advanced Science, 2020, 7: 2000470 (高被引论文) (IF=15.84).
[18]Erjin Zhang, Bin Wang, Jue Wang, Hongbo Ding, Shi Zhang, Huigao Duan, Xinzhi Yu, Bingan Lu.Rapidly synthesizing interconnected carbon nanocage by microwave toward high-performance aluminum batteries.Chemical Engineering Journal, 2020, 389,: 124407 (高被引论文) (IF=10.652).
[19]Hongwei Fu, Guozheng Fan, Jiang Zhou, Xinzhi Yu, Xuesong Xie, Jue Wang, Bingan Lu, Shuquan Liang.Facilitating Phase Evolution for a High-Energy-Efficiency, Low-Cost O3-Type NaxCu0.18Fe0.3Mn0.52O2 Sodium Ion Battery Cathode.Inorganic Chemistry, 2020, 58: 13792–13800 (IF=4.825).
[20]Jue Wang, Ling Fan, Zhaomeng Liu, Suhua Chen, Qingfeng Zhang, Longlu Wang, Hongguan Yang, Xinzhi Yu, Bingan Lu.In Situ Alloying Strategy for Exceptional Potassium Ion Batteries.ACS Nano, 2019, 13: 3703-3713(高被引论文) 第一作者 (IF=14.588).
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