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1.»ù±¾¼òÀú
2011.09-2015.07�����£¬Çൺ¿Æ¼¼´óѧ�����£¬ÖÊÁÏ¿ÆѧÓ빤³Ì�����£¬Ñ§Ê¿
2015.09-2020.06�����£¬Öйúº£Ñó´óѧ�����£¬º£ÑóÖÊÁÏ¿ÆѧÓ빤³Ì�����£¬²©Ê¿
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[1] ÕÐÉúѧ¿Æ£ºÐÂÄÜÔ´¿ÆѧÓ빤³Ì£¨²©£©¡¢ÐÂÄÜÔ´¿ÆѧÓ빤³Ì£¨Ë¶£©¡¢Çå½àÄÜÔ´ÊÖÒÕ£¨Ë¶£©
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6.´ú±íÐÔÂÛÎÄ
[1] "Mitigating the Kinetic Hysteresis of Co-Free Ni-Rich Cathodes Via Gradient Penetration of Nonmagnetic Silicon." Angewandte Chemie-International Edition , 2024, (IF=16.1)
[2] "Li/Ni Intermixing: The Real Origin of Lattice Oxygen Stability in Co-Free Ni-Rich Cathode Materials." Advanced Energy Materials , 2024, (IF=27.8)
[3] "Elaborating the Crystal Water of Prussian Blue for Outstanding Performance of Sodium Ion Batteries." ACS Nano , 2024, (IF=17.1)
[4] "Rare-Earth Ions Induced Pre-Excitation of Intercalation-Conversion Anode to Achieve Fast Potassium-Ion Storage." Energy Storage Materials , 2024, (IF=20.4)
[5] "Defect-Engineered Tinox Catalyst Targeted to Activate Rate-Determining Step for Highly Efficient K-Ses2 Batteries." Energy Storage Materials , 2024, (IF=20.4)
[6] "Intermolecular N-N Stacking of Oligomeric Naphthalene Cathodes Facilitate High Performance Aluminum Ion Battery." Chemical Engineering Journal , 2024, (IF=13.3)
[7] "Multiple Working Mechanisms Enabled by an Iodized Organic Salt Cathode for High Energy Density Potassium-Organic Batteries." ACS Energy Letters , 2023, (IF=22.0)
[8] "A Static Tin-Manganese Battery with 30000-Cycle Lifespan Based on Stabilized Mn3+/Mn2+Redox Chemistry." ACS Nano , 2023, (IF=17.1)
[9] "Embedding Oxophilic Rare-Earth Single Atom in Platinum Nanoclusters for Efficient Hydrogen Electro-Oxidation." Nature Communications , 2023, (IF=16.6)
[10] "Revealing the Origin of High-Thermal-Stability of Single-Crystal Ni-Rich Cathodes toward Higher-Safety Batteries." Nano Energy , 2023, (IF=17.6)
[11] "Pseudocapacitance-Rich Carbon Nanospheres with Graphene Protective Shield Achieving Favorable Capacity-Cyclability Combinations of K-Ion Storage." Chemical Engineering Journal , 2023, (IF=13.3)
[12] "Polycyclic Aromatic Hydrocarbons as a New Class of Promising Cathode Materials for Aluminum-Ion Batteries." Angewandte Chemie-International Edition , 2022, (IF=16.1)
[13] "Platinum-Free Electrocatalysts for Hydrogen Oxidation Reaction in Alkaline Media." Nano Energy , 2022, (IF=17.6)
[14] "Dual Carbon Li-Ion Capacitor with High Energy Density and Ultralong Cycling Life at a Wide Voltage Window." Science China-Materials, 2022, Öйú׿ԽÆÚ¿¯
[15] "Reversible Phosphorus-Based Five-Electron Transfer Reaction for Aluminium-Phosphorus Batteries." Energy Storage Materials , 2022, (IF=20.4)
[16] "Tailored Mos<Sub>2</Sub> Bilayer Grafted onto N/S-Doped Carbon for Ultra-Stable Potassium-Ion Capacitor." Chemical Engineering Journal , 2022, (IF=13.3)
[17] "Water-Soluble Salt Template-Assisted Anchor of Hollow Fes<Sub>2</Sub> Nanoparticle inside 3d Carbon Skeleton to Achieve Fast Potassium-Ion Storage." Advanced Energy Materials , 2021, (IF=27.8)
[18] "Liquid-State Templates for Constructing B, N, Co-Doping Porous Carbons with a Boosting of Potassium-Ion Storage Performance." Advanced Energy Materials , 2021, (IF=27.8)
[19] "Enhancing Hydrogen Oxidation Electrocatalysis of Nickel-Based Catalyst by Simultaneous Chemical Anchoring and Electronic Structure Regulation." Chemical Engineering Journal , 2021, (IF=13.3)
[20] "Amorphous Se Species Anchored into Enclosed Carbon Skeleton Bridged by Chemical Bonding toward Advanced K-Se Batteries." Journal of Energy Chemistry , 2021, Öйú׿ԽÆÚ¿¯ (IF=14.0)
[21] "Controlled Design of Well-Dispersed Ultrathin MoS2 Nanosheets inside Hollow Carbon Skeleton: Toward Fast Potassium Storage by Constructing Spacious "Houses" for K Ions." Advanced Functional Materials , 2020, (IF=18.5)
[22] "Rigid-Flexible Coupling Carbon Skeleton and Potassium-Carbonate-Dominated Solid Electrolyte Interface Achieving Superior Potassium-Ion Storage." ACS Nano , 2020, (IF=17.1)
[23] "Bioinspired Mineralization under Freezing Conditions: An Approach to Fabricate Porous Carbons with Complicated Architecture and Superior K+ Storage Performance." ACS Nano , 2019, (IF=17.1)
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