马继臻 (实验师)

实验师

性别：女

在职信息：在职

所在单位：化学与化工学院

入职时间：2018-04-04

办公地点：生命北楼235

联系方式：majz@sdu.edu.cn

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论文成果

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[1] 陈松. Coordination Modulation of Hydrated Zinc ions to Enhance Redox Reversibility of Zinc Batteries. NATURE COMMUNICATIONS, 2023.
[2] . Crystal phase engineering of CoBOx/NiCoP heterostructures as trifunctional electrocatalysts for overall water splitting and urea electrolysis. Chemical Engineering Journal, 2024.
[3] 陈谦武. Separation E？ect of Graphene Sheets with N, O Codopingand Molybdenum Clusters for Reversible Lithium–IodineBatteries. Advanced Functional Materials, 2024.
[4] 曹雪莹. Strong p-d Orbital Hybridization on Bismuth Nanosheets for High Performing CO2 Electroreduction. ADVANCED MATERIALS , 2023.
[5] 舒欣欣. Bimetal-bridging Nitrogen Coordination in Carbon-based Electrocatalysts for pH-universal Oxygen Reduction. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2023.
[6] 郭伟健. Thermal-driven Dispersion of Bismuth Nanoparticles among Carbon Matrix for Efficient Carbon Dioxide Reduction. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2024.
[7] 谭东兴. Electrochemical-driven reconstruction for efficient reduction of carbon dioxide into alcohols. CHEM CATALYSIS, 3, 2023.
[8] 曹雪莹. Stepwise dispersion of nickel species for efficient coupling of electrocatalytic redox reactions. Chemical Engineering Journal, 454, 2023.
[9] 舒欣欣. Tuning Co-Catalytic Sites in Hierarchical Porous N-Doped Carbon for High-Performance Rechargeable and Flexible Zn-Air Battery. advanced energy materials, 13, 2022.
[10] 乌兰巴日. Atomic Bridging of Sn Single Atom with Nitrogen and Oxygen Atoms for the Selective Electrocatalytic Reduction of CO2. CCS Chemistry, 2023.
[11] 乌兰巴日. To Stabilize Oxygen on In/In2O3 Heterostructure via Joule Heating for Efficient Electrocatalytic CO2 Reduction. Advanced Functional Materials, 33, 2022.
[12] 王月青. Confined interface transformation of metal-organic frameworks for highly efficient oxygen evolution reactions. 能源环境科学, 2022.
[13] 谭东兴. Interface Molecular Functionalization of Cu2O for Synchronous Electrocatalytic Generation of Formate. Nano Letters, 22, 6298-6305, 2022.
[14] 陈谦武. Interface coating of iron nitride on carbon cloth for reversible lithium redox in rechargeable battery. Chemical Engineering Journal, 431, 2022.
[15] . Physicochemical Confinement Effect Enables High-Performing Zinc-Iodine Batteries.. Journal of the American Chemical Society, 144, 21683-21691, 2022.
[16] 曹雪莹. Atomic bismuth induced ensemble sites with indium towards highly efficient and stable electrocatalytic reduction of carbon dioxide. science bulletin, 68, 1008-1016, 2023.
[17] 曹雪莹. Atomic Bridging Structure of Nickel–Nitrogen–Carbon for Highly Efficient Electrocatalytic Reduction of CO2. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 61, e202113918, 2022.
[18] 乌兰巴日. To Stabilize Oxygen on In/In<sub>2</sub>O<sub>3</sub> Heterostructure via Joule Heating for Efficient Electrocatalytic CO<sub>2</sub> Reduction. Advanced functional materials, 33, 2023.
[19] 王月青. Bionic Mineralization toward Scalable MOF Films for Ampere-Level Biomass Upgrading. J. AM. CHEM. SOC., 145, 20624, 2023.
[20] 陈谦武. Synergic anchoring of Fe2N nanoclusters on porous carbon to enhance reversible conversion of iodine for high-temperature zinc-iodine battery. Nano Energy, 117, 2023.

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