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戴伟绩 讲师

材料科学与工程学院

通讯地址:镇江市丹徒区长晖路666号

个人邮箱:daiweiji@just.edu.cn

邮政编码:

办公地点:长山校区材料楼

传真:

  • 个人简介

  • 研究方向

  • 科研团队

  • 科研项目

  • 获奖动态

  • 教学随笔

  • 教育经历

  • 课程教学

  • 论文著作

  • 科研论文

  • 科研横向项目

  • 科研纵向项目

  • 科研专利

  • 科研动物专利

  • 工学博士,硕士研究生导师,中共党员。2021年毕业于东南大学,主要从事催化电极材料应用过程中表面结构演变研究。以第一作者身份先后在Journal of Power Sources,Journal of Materials Chemistry A,Journal of Colloid and Interface Science,Electrochimica Acta等期刊发表研究论文。授权国家发明专利2项。受邀担任APPLIED CATALYSIS B-ENVIRONMENTAL,ChemSusChem,ACS Applied Materials & Interfaces,Sustainable Energy & Fuels等国际期刊审稿人。



    ***欢迎广大学术型研究生报考***

    ***欢迎广大学术型研究生报考***

    ***欢迎广大学术型研究生报考***



  • (1)电催化(HER, OER, ORR等)

    (2)超级电容器及关键材料

    (3)高熵材料的电化学储能及催化应用

    • 科研项目

      江苏省高等学校基础科学(自然科学)研究面上项目 22KJB430021,主持(2022-2024)

    • 专利成果

      戴伟绩,杨玄宇,黄赛芳,胡奉雨,赵翠娇,张宇栋. 一种分级多孔多组元合金电极材料的制备方法及其应用.CN115747555A,发明公开.

      戴伟绩, 胡奉雨, 曹伟雯, 杨玄宇, 赵翠娇, 黄赛芳.  一种MIL系列金属有机框架材料的制备方法及电催化应用. CN115521472A, 发明公开.

      潘冶,戴伟绩,陆韬,朱银安. 一种阳极析氧催化剂FeMnCoNiP非晶合金及其制备方法. ZL201810379389.3, 中国发明专利.

      潘冶,戴伟绩. 一种电催化阳极析氧催化剂(FexNi1-x)S2纳米晶材料及其制备方法. CN109701559A, 发明公开.

      陆韬,章粤,戴伟绩,潘冶. 高熵氧化物型电催化阳极析氧催化剂材料及其制备方法. CN111054378B, 中国发明专利.



    • 论文著作

      2025

      8. Bai S, Dai W*, Chen X, et al. Surface-reconstructed nanoporous (CoNiFe) OOH modulated by Zn(OH)42− anions: A synergistic strategy for enhanced oxygen evolution reaction electrocatalysis[J]. Nano Research, 2025, Just Accepted Manuscript • https://doi.org/10.26599/NR.2025.94907809 (本科生一作)

      7. Chen X, Dai W*, Bai S, et al. Dynamic activation of lattice oxygen in medium-entropy CoNiFe-based spinel oxides decorated with in situ formed alloy for efficient oxygen evolution reaction[J]. New Journal of Chemistry, 2025, 49(23): 9798-9805.(本科生一作)

      6. Dai, Weiji*, Wu Bing, Zhang Fan, Huang Yuxi, Zhao Cuijiao, Zhang Yudong, Cui Can, Guo Jing, Huang Saifang, Construction of bimetallic oxy-hydroxides based on Ni(OH)2 nanosheets for sensitive non-enzymatic glucose detection via electrochemical oxidation and incorporation. Nanoscale, 2025, 17: 2589-2598.

      2024

      5. Bai Shuozhan, Dai Weiji*, Yang Xuanyu, Wu Bing, Guo Jing, Zhao Cuijiao, Zhang Yudong, Cui Can, Zou Guodong, Huang Saifang, Phosphate-decorated hierarchical porous CoNiFe medium-entropy alloy: An efficient and low-cost electrocatalyst for seawater oxidation. International Journal of Hydrogen Energy, 2024, 84: 615-622. (本科生一作)

      4. Wu Bing, Dai Weiji*, Yang Xuanyu, Zhao Cuijiao, Zhang Yudong, Cui Can, Sui Yanwei, Cao Peng, Huang Saifang, Surface reconstruction and entropy engineering of Ni (OH) 2 nanosheets for enhanced electrocatalytic performances of oxygen evolution reaction in alkaline seawater. Fuel, 2024, 374: 132450.

      2023

      3. Dai Weiji, Hu Fengyu, Yang Xuanyu, Wu Bing, Zhao Cuijiao, Zhang Yudong, Huang Saifang, In situ phosphorization inducing oxygen vacancies of the core-shell structure NiFe oxides to boost electrocatalytic activity for oxygen evolution reaction, Dalton Transaction, 2023, 52, 18000-18009.

      2. Cao Weiwen#, Yang Xuanyu#, Dai Weiji*, Wu Bing, Zhang yudong, Zhao Cuijiao, Sui Yanwei, Huang Saifang*. Amorphous FeCoNiMnCr high-entropy alloy supported by 2H-MoS2 on carbon cloth as a highly efficient and robust electrocatalyst for water oxidation. New Journal of Chemistry, 2023, 47, 12670-12677.

      1. Dai Weiji, Yang Xuanyu, Hu Fengyu, Cao Weiwen, Zhao Cuijiao, Zhang Yudong, Huang Saifang*. Solution combustion synthesis of hierarchical porous CoNiFeCu0. 1 medium-entropy alloy: A highly efficient and robust electrocatalyst for water oxidation. Journal of Alloys and Compounds, 2023, 952: 169987.(IF:6.371)

      (以下为2022年之前论文)

      1. Dai Weiji, Zhu Yin-an, Yike Ye, Pan Ye*, Lu Tao*, Huang Saifang*. Electrochemical incorporation of heteroatom into surface reconstruction induced Ni vacancy of NixO nanosheet for enhanced water oxidation. Journal of Colloid and Interface Science, 2022, 608: 3030-3039. (IF:8.128)

      2. Dai Weiji, Bai Xiaowan, Zhu Yin-an, Zhang Yue, Lu Tao, Pan Ye*, Wang Jinlan*. Surface reconstruction induced in-situ phosphorus doping in nickel oxides for enhanced oxygen evolution reaction. Journal of Materials Chemistry A, 2021, 9, 6432-6441(IF:12.732)

      3. Zhu Yin-an#Dai Weiji#, Zhong Xu, Lu Tao, Pan Ye*. In-situ Reconstruction of Non-noble Multi-metal Core-shell Oxyfluorides for Water Oxidation. Journal of Colloid and Interface Science, 2021,602,55-63(IF:8.128)

      4. Dai Weiji, Ren Kai, Zhu Yin-an, Pan Ye*, Yu Jin, Lu Tao. Flower-like CoNi2S4/Ni3S2 nanosheet clusters on nickel foam as bifunctional electrocatalyst for overall water splitting. Journal of Alloys and Compounds, 2020, 844, 156252. (IF:5.316)

      5. Dai Weiji, Pan Ye*, Ren Kai, Zhu Yin-an, Lu Tao. Heteroatom Ni alloyed pyrite-phase FeS2 as a pre-catalyst for enhanced oxygen evolution reaction. Electrochimica Acta, 2020, 355, 136821. (IF:6.901)

      6. Dai Weiji, Lu Tao, Pan Ye*. Novel and promising electrocatalyst for oxygen evolution reaction based on MnFeCoNi high entropy alloy. Journal of Power Sources, 2019, 430: 104-111. (IF:9.127)

      7. Dai Weiji, Pan Ye*, Wang Ning, Wu Shikai, Li Xingzhou, Zhu Yin-an, Lu Tao. Nanocrystalline NiS particles synthesized by mechanical alloying as a promising oxygen evolution electrocatalyst. Materials Letters, 2018, 218: 115-118. (IF:3.423)

      8. Zhang Yue, Dai Weiji, Zhang Pengfei, Lu Tao*, Pan Ye*. In-situ electrochemical tuning of (CoNiMnZnFe)3O3.2 high-entropy oxide for efficient oxygen evolution reactions. Journal of Alloys and Compounds, 2021, 159064.

      9. Di Xin, Pan Ye*, Dai Weiji, Zhu Yin-an, Lu Tao. In-situ electrochemical oxidation of amorphous nanoporous NiZrO for enhanced non-enzymatic glucose sensing. Materials Letters, 2020, 271, 127694.

      10. Zhu Yin-an, Pan Ye*, Dai Weiji, Lu Tao. Dealloying Generation of Oxygen Vacancies in the Amorphous Nanoporous Ni–Mo–O for Superior Electrocatalytic Hydrogen Generation. ACS Applied Energy Materials, 2020, 3(2): 1319-1327.

      11. Zhu Yin-an, Pan Ye*, Dai Weiji. Synthesis of hybrid metal oxides with high degradation efficiency via a self-propagating process of metallic glasses. Ceramics International, 2020, 46(1): 622-628.

      12. Zhang Yue, Lu Tao*, Ye Yike, Dai Weiji, Zhu Yin-an, Pan Ye*. Stabilizing Oxygen Vacancy in Entropy-Engineered CoFe2O4-Type Catalysts for Co-prosperity of Efficiency and Stability in an Oxygen Evolution Reaction[J]. ACS Appl. Mater. Interfaces, 2020, 12, 29, 32548–32555.

      (#为共同一作,*为通讯作者)

       


    • 科研项目

      江苏省高等学校基础科学(自然科学)研究面上项目 22KJB430021,主持(2022-2024)

    • 专利成果

      戴伟绩,杨玄宇,黄赛芳,胡奉雨,赵翠娇,张宇栋. 一种分级多孔多组元合金电极材料的制备方法及其应用.CN115747555A,发明公开.

      戴伟绩, 胡奉雨, 曹伟雯, 杨玄宇, 赵翠娇, 黄赛芳.  一种MIL系列金属有机框架材料的制备方法及电催化应用. CN115521472A, 发明公开.

      潘冶,戴伟绩,陆韬,朱银安. 一种阳极析氧催化剂FeMnCoNiP非晶合金及其制备方法. ZL201810379389.3, 中国发明专利.

      潘冶,戴伟绩. 一种电催化阳极析氧催化剂(FexNi1-x)S2纳米晶材料及其制备方法. CN109701559A, 发明公开.

      陆韬,章粤,戴伟绩,潘冶. 高熵氧化物型电催化阳极析氧催化剂材料及其制备方法. CN111054378B, 中国发明专利.



    • 论文著作

      2025

      8. Bai S, Dai W*, Chen X, et al. Surface-reconstructed nanoporous (CoNiFe) OOH modulated by Zn(OH)42− anions: A synergistic strategy for enhanced oxygen evolution reaction electrocatalysis[J]. Nano Research, 2025, Just Accepted Manuscript • https://doi.org/10.26599/NR.2025.94907809 (本科生一作)

      7. Chen X, Dai W*, Bai S, et al. Dynamic activation of lattice oxygen in medium-entropy CoNiFe-based spinel oxides decorated with in situ formed alloy for efficient oxygen evolution reaction[J]. New Journal of Chemistry, 2025, 49(23): 9798-9805.(本科生一作)

      6. Dai, Weiji*, Wu Bing, Zhang Fan, Huang Yuxi, Zhao Cuijiao, Zhang Yudong, Cui Can, Guo Jing, Huang Saifang, Construction of bimetallic oxy-hydroxides based on Ni(OH)2 nanosheets for sensitive non-enzymatic glucose detection via electrochemical oxidation and incorporation. Nanoscale, 2025, 17: 2589-2598.

      2024

      5. Bai Shuozhan, Dai Weiji*, Yang Xuanyu, Wu Bing, Guo Jing, Zhao Cuijiao, Zhang Yudong, Cui Can, Zou Guodong, Huang Saifang, Phosphate-decorated hierarchical porous CoNiFe medium-entropy alloy: An efficient and low-cost electrocatalyst for seawater oxidation. International Journal of Hydrogen Energy, 2024, 84: 615-622. (本科生一作)

      4. Wu Bing, Dai Weiji*, Yang Xuanyu, Zhao Cuijiao, Zhang Yudong, Cui Can, Sui Yanwei, Cao Peng, Huang Saifang, Surface reconstruction and entropy engineering of Ni (OH) 2 nanosheets for enhanced electrocatalytic performances of oxygen evolution reaction in alkaline seawater. Fuel, 2024, 374: 132450.

      2023

      3. Dai Weiji, Hu Fengyu, Yang Xuanyu, Wu Bing, Zhao Cuijiao, Zhang Yudong, Huang Saifang, In situ phosphorization inducing oxygen vacancies of the core-shell structure NiFe oxides to boost electrocatalytic activity for oxygen evolution reaction, Dalton Transaction, 2023, 52, 18000-18009.

      2. Cao Weiwen#, Yang Xuanyu#, Dai Weiji*, Wu Bing, Zhang yudong, Zhao Cuijiao, Sui Yanwei, Huang Saifang*. Amorphous FeCoNiMnCr high-entropy alloy supported by 2H-MoS2 on carbon cloth as a highly efficient and robust electrocatalyst for water oxidation. New Journal of Chemistry, 2023, 47, 12670-12677.

      1. Dai Weiji, Yang Xuanyu, Hu Fengyu, Cao Weiwen, Zhao Cuijiao, Zhang Yudong, Huang Saifang*. Solution combustion synthesis of hierarchical porous CoNiFeCu0. 1 medium-entropy alloy: A highly efficient and robust electrocatalyst for water oxidation. Journal of Alloys and Compounds, 2023, 952: 169987.(IF:6.371)

      (以下为2022年之前论文)

      1. Dai Weiji, Zhu Yin-an, Yike Ye, Pan Ye*, Lu Tao*, Huang Saifang*. Electrochemical incorporation of heteroatom into surface reconstruction induced Ni vacancy of NixO nanosheet for enhanced water oxidation. Journal of Colloid and Interface Science, 2022, 608: 3030-3039. (IF:8.128)

      2. Dai Weiji, Bai Xiaowan, Zhu Yin-an, Zhang Yue, Lu Tao, Pan Ye*, Wang Jinlan*. Surface reconstruction induced in-situ phosphorus doping in nickel oxides for enhanced oxygen evolution reaction. Journal of Materials Chemistry A, 2021, 9, 6432-6441(IF:12.732)

      3. Zhu Yin-an#Dai Weiji#, Zhong Xu, Lu Tao, Pan Ye*. In-situ Reconstruction of Non-noble Multi-metal Core-shell Oxyfluorides for Water Oxidation. Journal of Colloid and Interface Science, 2021,602,55-63(IF:8.128)

      4. Dai Weiji, Ren Kai, Zhu Yin-an, Pan Ye*, Yu Jin, Lu Tao. Flower-like CoNi2S4/Ni3S2 nanosheet clusters on nickel foam as bifunctional electrocatalyst for overall water splitting. Journal of Alloys and Compounds, 2020, 844, 156252. (IF:5.316)

      5. Dai Weiji, Pan Ye*, Ren Kai, Zhu Yin-an, Lu Tao. Heteroatom Ni alloyed pyrite-phase FeS2 as a pre-catalyst for enhanced oxygen evolution reaction. Electrochimica Acta, 2020, 355, 136821. (IF:6.901)

      6. Dai Weiji, Lu Tao, Pan Ye*. Novel and promising electrocatalyst for oxygen evolution reaction based on MnFeCoNi high entropy alloy. Journal of Power Sources, 2019, 430: 104-111. (IF:9.127)

      7. Dai Weiji, Pan Ye*, Wang Ning, Wu Shikai, Li Xingzhou, Zhu Yin-an, Lu Tao. Nanocrystalline NiS particles synthesized by mechanical alloying as a promising oxygen evolution electrocatalyst. Materials Letters, 2018, 218: 115-118. (IF:3.423)

      8. Zhang Yue, Dai Weiji, Zhang Pengfei, Lu Tao*, Pan Ye*. In-situ electrochemical tuning of (CoNiMnZnFe)3O3.2 high-entropy oxide for efficient oxygen evolution reactions. Journal of Alloys and Compounds, 2021, 159064.

      9. Di Xin, Pan Ye*, Dai Weiji, Zhu Yin-an, Lu Tao. In-situ electrochemical oxidation of amorphous nanoporous NiZrO for enhanced non-enzymatic glucose sensing. Materials Letters, 2020, 271, 127694.

      10. Zhu Yin-an, Pan Ye*, Dai Weiji, Lu Tao. Dealloying Generation of Oxygen Vacancies in the Amorphous Nanoporous Ni–Mo–O for Superior Electrocatalytic Hydrogen Generation. ACS Applied Energy Materials, 2020, 3(2): 1319-1327.

      11. Zhu Yin-an, Pan Ye*, Dai Weiji. Synthesis of hybrid metal oxides with high degradation efficiency via a self-propagating process of metallic glasses. Ceramics International, 2020, 46(1): 622-628.

      12. Zhang Yue, Lu Tao*, Ye Yike, Dai Weiji, Zhu Yin-an, Pan Ye*. Stabilizing Oxygen Vacancy in Entropy-Engineered CoFe2O4-Type Catalysts for Co-prosperity of Efficiency and Stability in an Oxygen Evolution Reaction[J]. ACS Appl. Mater. Interfaces, 2020, 12, 29, 32548–32555.

      (#为共同一作,*为通讯作者)

       


    • 科研项目

      江苏省高等学校基础科学(自然科学)研究面上项目 22KJB430021,主持(2022-2024)

    • 专利成果

      戴伟绩,杨玄宇,黄赛芳,胡奉雨,赵翠娇,张宇栋. 一种分级多孔多组元合金电极材料的制备方法及其应用.CN115747555A,发明公开.

      戴伟绩, 胡奉雨, 曹伟雯, 杨玄宇, 赵翠娇, 黄赛芳.  一种MIL系列金属有机框架材料的制备方法及电催化应用. CN115521472A, 发明公开.

      潘冶,戴伟绩,陆韬,朱银安. 一种阳极析氧催化剂FeMnCoNiP非晶合金及其制备方法. ZL201810379389.3, 中国发明专利.

      潘冶,戴伟绩. 一种电催化阳极析氧催化剂(FexNi1-x)S2纳米晶材料及其制备方法. CN109701559A, 发明公开.

      陆韬,章粤,戴伟绩,潘冶. 高熵氧化物型电催化阳极析氧催化剂材料及其制备方法. CN111054378B, 中国发明专利.



    • 论文著作

      2025

      8. Bai S, Dai W*, Chen X, et al. Surface-reconstructed nanoporous (CoNiFe) OOH modulated by Zn(OH)42− anions: A synergistic strategy for enhanced oxygen evolution reaction electrocatalysis[J]. Nano Research, 2025, Just Accepted Manuscript • https://doi.org/10.26599/NR.2025.94907809 (本科生一作)

      7. Chen X, Dai W*, Bai S, et al. Dynamic activation of lattice oxygen in medium-entropy CoNiFe-based spinel oxides decorated with in situ formed alloy for efficient oxygen evolution reaction[J]. New Journal of Chemistry, 2025, 49(23): 9798-9805.(本科生一作)

      6. Dai, Weiji*, Wu Bing, Zhang Fan, Huang Yuxi, Zhao Cuijiao, Zhang Yudong, Cui Can, Guo Jing, Huang Saifang, Construction of bimetallic oxy-hydroxides based on Ni(OH)2 nanosheets for sensitive non-enzymatic glucose detection via electrochemical oxidation and incorporation. Nanoscale, 2025, 17: 2589-2598.

      2024

      5. Bai Shuozhan, Dai Weiji*, Yang Xuanyu, Wu Bing, Guo Jing, Zhao Cuijiao, Zhang Yudong, Cui Can, Zou Guodong, Huang Saifang, Phosphate-decorated hierarchical porous CoNiFe medium-entropy alloy: An efficient and low-cost electrocatalyst for seawater oxidation. International Journal of Hydrogen Energy, 2024, 84: 615-622. (本科生一作)

      4. Wu Bing, Dai Weiji*, Yang Xuanyu, Zhao Cuijiao, Zhang Yudong, Cui Can, Sui Yanwei, Cao Peng, Huang Saifang, Surface reconstruction and entropy engineering of Ni (OH) 2 nanosheets for enhanced electrocatalytic performances of oxygen evolution reaction in alkaline seawater. Fuel, 2024, 374: 132450.

      2023

      3. Dai Weiji, Hu Fengyu, Yang Xuanyu, Wu Bing, Zhao Cuijiao, Zhang Yudong, Huang Saifang, In situ phosphorization inducing oxygen vacancies of the core-shell structure NiFe oxides to boost electrocatalytic activity for oxygen evolution reaction, Dalton Transaction, 2023, 52, 18000-18009.

      2. Cao Weiwen#, Yang Xuanyu#, Dai Weiji*, Wu Bing, Zhang yudong, Zhao Cuijiao, Sui Yanwei, Huang Saifang*. Amorphous FeCoNiMnCr high-entropy alloy supported by 2H-MoS2 on carbon cloth as a highly efficient and robust electrocatalyst for water oxidation. New Journal of Chemistry, 2023, 47, 12670-12677.

      1. Dai Weiji, Yang Xuanyu, Hu Fengyu, Cao Weiwen, Zhao Cuijiao, Zhang Yudong, Huang Saifang*. Solution combustion synthesis of hierarchical porous CoNiFeCu0. 1 medium-entropy alloy: A highly efficient and robust electrocatalyst for water oxidation. Journal of Alloys and Compounds, 2023, 952: 169987.(IF:6.371)

      (以下为2022年之前论文)

      1. Dai Weiji, Zhu Yin-an, Yike Ye, Pan Ye*, Lu Tao*, Huang Saifang*. Electrochemical incorporation of heteroatom into surface reconstruction induced Ni vacancy of NixO nanosheet for enhanced water oxidation. Journal of Colloid and Interface Science, 2022, 608: 3030-3039. (IF:8.128)

      2. Dai Weiji, Bai Xiaowan, Zhu Yin-an, Zhang Yue, Lu Tao, Pan Ye*, Wang Jinlan*. Surface reconstruction induced in-situ phosphorus doping in nickel oxides for enhanced oxygen evolution reaction. Journal of Materials Chemistry A, 2021, 9, 6432-6441(IF:12.732)

      3. Zhu Yin-an#Dai Weiji#, Zhong Xu, Lu Tao, Pan Ye*. In-situ Reconstruction of Non-noble Multi-metal Core-shell Oxyfluorides for Water Oxidation. Journal of Colloid and Interface Science, 2021,602,55-63(IF:8.128)

      4. Dai Weiji, Ren Kai, Zhu Yin-an, Pan Ye*, Yu Jin, Lu Tao. Flower-like CoNi2S4/Ni3S2 nanosheet clusters on nickel foam as bifunctional electrocatalyst for overall water splitting. Journal of Alloys and Compounds, 2020, 844, 156252. (IF:5.316)

      5. Dai Weiji, Pan Ye*, Ren Kai, Zhu Yin-an, Lu Tao. Heteroatom Ni alloyed pyrite-phase FeS2 as a pre-catalyst for enhanced oxygen evolution reaction. Electrochimica Acta, 2020, 355, 136821. (IF:6.901)

      6. Dai Weiji, Lu Tao, Pan Ye*. Novel and promising electrocatalyst for oxygen evolution reaction based on MnFeCoNi high entropy alloy. Journal of Power Sources, 2019, 430: 104-111. (IF:9.127)

      7. Dai Weiji, Pan Ye*, Wang Ning, Wu Shikai, Li Xingzhou, Zhu Yin-an, Lu Tao. Nanocrystalline NiS particles synthesized by mechanical alloying as a promising oxygen evolution electrocatalyst. Materials Letters, 2018, 218: 115-118. (IF:3.423)

      8. Zhang Yue, Dai Weiji, Zhang Pengfei, Lu Tao*, Pan Ye*. In-situ electrochemical tuning of (CoNiMnZnFe)3O3.2 high-entropy oxide for efficient oxygen evolution reactions. Journal of Alloys and Compounds, 2021, 159064.

      9. Di Xin, Pan Ye*, Dai Weiji, Zhu Yin-an, Lu Tao. In-situ electrochemical oxidation of amorphous nanoporous NiZrO for enhanced non-enzymatic glucose sensing. Materials Letters, 2020, 271, 127694.

      10. Zhu Yin-an, Pan Ye*, Dai Weiji, Lu Tao. Dealloying Generation of Oxygen Vacancies in the Amorphous Nanoporous Ni–Mo–O for Superior Electrocatalytic Hydrogen Generation. ACS Applied Energy Materials, 2020, 3(2): 1319-1327.

      11. Zhu Yin-an, Pan Ye*, Dai Weiji. Synthesis of hybrid metal oxides with high degradation efficiency via a self-propagating process of metallic glasses. Ceramics International, 2020, 46(1): 622-628.

      12. Zhang Yue, Lu Tao*, Ye Yike, Dai Weiji, Zhu Yin-an, Pan Ye*. Stabilizing Oxygen Vacancy in Entropy-Engineered CoFe2O4-Type Catalysts for Co-prosperity of Efficiency and Stability in an Oxygen Evolution Reaction[J]. ACS Appl. Mater. Interfaces, 2020, 12, 29, 32548–32555.

      (#为共同一作,*为通讯作者)