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硕士报考志愿采集    更新日期:2025年3月2日
姓 名 段静静 性 别
出生年月 1986年10月 籍贯 河南驻马店
民 族 汉族 政治面貌 中国共产党党员
最后学历 博士研究生 最后学位
技术职称 教授 导师类别 博、硕导
导师类型 校内 兼职导师
行政职务 Email jingjing.duan@njust.edu.cn
工作单位 南京理工大学 邮政编码 210094
通讯地址 玄武区孝陵卫200号
单位电话
个人主页
指导学科
学科专业(主) 0807|动力工程及工程热物理 招生类别 博、硕士 所在学院 能源与动力工程学院
研究方向
工作经历

段静静博士于2016-2019年期间,先后在澳大利亚新南威尔士大学、美国德州大学奥斯汀分校、澳大利亚阿德莱德大学从事博士后研究。

教育经历

段静静于2016年在澳大利亚阿德莱德大学获得博士学位。

获奖、荣誉称号

一、荣誉和奖励

  1. 2023-2021爱思唯尔中国高被引科学家
  2. 2023-2020全球全学科Top2%科学家
  3. 2024 Chemical Engineering Journal 新锐科学家
  4. 2024 Materials Horizon新锐科学家
  5. 2021英国皇家化学会JMCA新锐科学家
  6. 2021南京理工大学“突出贡献奖”
  7. 2020 ACS CATALYSIS MOST CITED PAPER RANK 4
  8. 2018女性杰出研究奖,阿德莱德大学,澳大利亚
  9. 2017 杰出毕业生金牌奖章,阿德莱德大学,澳大利亚
  10. 2017 最佳学术海报奖,第五届“Nano Today”会议,夏威夷,美国

 

二、学术活动

  1. Exploration 副编辑 (Wiley, from 2021)
  2. Materials Today Energy 青年编委 (from 2021)
  3. Next Energy 第一届青年编委 (from 2022)
  4. EcoEnergy 第一届青年编委 (from 2023)
  5. Chemical Engineering Science 青年编委 (2022-2024)
  6. EcoMat 青年编委 (2022-2024)
  7. Carbon Neutralization青年编委 (2022-2024)
  8. 主持举办2022 Exploration-Energy 国际云论坛
  9. 举办2023“第三届女催化科学家论坛”(江阴)
  10. Next Energy special issue “CO2 reduction reaction, what is the next?” 客座编辑
  11. Wiley & Exploration 年度最佳编辑(2022)
  12. 主持澳大利亚2023 International Conference on Nano Bio Intelligence会议Smart Materials论坛(悉尼)
  13. 主持2023EcoMat Conference催化与催化剂论坛(香港,中国)
  14. 邀请报告,2024Wiley论坛:Sustainable Nanotechnology,(水原、韩国)
  15. 邀请报告:2024年工程热物理与能源利用学科优秀青年学者论坛暨学科发展研讨会(杭州)
  16. 邀请报告,2023EcoMat Conference, Symposium: 催化与催化剂论坛:“Solar-driven carbon-negative industrial CO2 electrolysis technologies”(香港,中国)
  17. 邀请报告:2023 Exploration生物-化学-医学国际研讨会(郑州)
  18. 邀请报告:2023年度《国家科学评论》化学与材料科学前沿论坛(扬州)
  19. 邀请报告,2023西南交通大学暑期国际课程周,“可再生能源驱动的电解体系”
  20. 邀请报告,2021南京航空航天大学青年教授学术交流联谊会“碳中和技术:清洁电能驱动的氢/碳/碳循环体系”
  21. 邀请报告,2021Exploration-药学生物学交叉学科论坛
  22. Joule, Advanced Energy Materials,Advanced Functional Materials, Journal of Materials Chemistry A, RSC Advances等期刊邀请审稿人

 

 

科研项目

主持项目:

1. 国家自然科学基金面上项目;配位功能球耦合自输运调控用于工业级负碳电化学二氧化碳转化体系;No. 52376193;51万元;2024.01-2027.12;

2. 外国青年人才计划,用于可逆水系金属-二氧化碳电池的高选择性、高活性的锡基阴极;QN2022182001L:30万元;2022.01-2024.12;

3. 国家自然科学基金青年科学基金项目;电解水催化中二维导电金属-有机化合物阵列的微结构设计、制备及机理研究;No. 52006105;24万元;2021.01-2023.12;

4. 海外高层次人才计划青年人才;面向能源存储与转换的电化学过程调控,400万元;2021-2024;

5. 南京理工大学自主科研专项计划项目,未来新型能源技术;面向二氧化碳还原的“膜式 ”液流电解池体系;No. 30920041113;50万元;2020.09-2023.09。

参与项目:

1. 国家自然科学基金委“能源有序转化”基础科学中心;直接经费2亿元,本团队承担3750万元;2019年-2023年;

2. 国家重点研发计划;可再生能源与化石能源耦合互补的耦合转化理论与方法;总经费1700万;2021年-2026年;

3. 国家自然科学基金委重大研发计划培育项目;仿生合成形状记忆金属有机化合物(MOFs)及构效关系研究;70万元;2022年-2024年

 

发表论文

共计著作100余篇,10余项专利,以一作或通信作者文章发表在国际顶级期刊Nat. Commun., PNAS, Energy. Environ. Sci.,J. Am. Chem. Soc., Angew. Chem. Int. Ed., Adv. Mater., Adv. Energy Mater.,Adv. Funt. Mater., ACS Nano等。论文引用次数1万余次,H因子为40,有13论文入选“top 1% ESI高被引论文”。

论文

[105] Kang Yang#, Ming Li#, Tianqi Gao, Guoliang Xu, Di Li, Yao Zheng, Qiang Li*, Jingjing Duan*, An acid-tolerant metal organic framework for industrial CO2 electrolysis using a proton exchange membrane, Nature Communications, 2024, 15, 7060.

[104] Min Zheng, Pengtang Wang, Xing Zhi, Kang Yang, Yan Jiao, Jingjing Duan*, Yao Zheng*, Shi-Zhang Qiao*, Electrocatalytic CO2-to-C2+ with Ampere-Level Current on Heteroatom-Engineered Copper via Tuning *CO Intermediate Coverage, Journal of the American Chemical Society, 2022, 144, 32, 14936-14944.

[103] Yuntong Sun, Shan Ding, Baokai Xia, Prof. Jingjing Duan,* Markus Antonietti, Sheng Chen,* Biomimetic FeMo (Se, Te) as Joint Electron Pool Promoting Nitrogen Electrofixation, Angewandte Chemie International Edition, 2022, 61, e202115198.

[102] Jingjing Duan, Sheng Chen, Mietek Jaroniec, Shi Zhang Qiao, Phosphorus vacancies that boost electrocatalytic hydrogen evolution by two orders of magnitude, Angewandte Chemie International Edition, 2020, 59, 8181-8186. [IF: 12.26, ESI highly cited paper]

[101]Yuntong Sun, Liming Dai, Nicole L. D. Sui, Yinghao Li, Meng Tian*, Jingjing Duan*, Sheng Chen*, and Jong-Min Lee*, Direct parallel electrosynthesis of high-value chemicals from atmospheric components on symmetry-breaking indium sites, PNAS, 2024, DOI: doi.org/10.1073/pnas.24096201.

[100]Tao Zhua1, Wencheng Fanga1, Xinrui Chena, Bingxin Liua, Hao Fenga, Ying ZhangaJingjing Duana*Dong Liua*, Qiang Lia*, Zero-carbon-emission electrochemistry-thermochemistry-assembled full-spectrum solar fuel production, Applied Energy, 2025, DOI: 10.1016/j.apenergy.2025.125611.

[99] Guoliang Xu; Aoli Xu; Sheng Chen, Jingjing Duan, Experimental and Simulation Study on CO2 Transport Mechanism during CO2 Electroreduction, Journal of Power Sources, 2025, just accepted.

[98] Qianyi Li, Zhihao Nie, Wenqiang Wu, Hongxin Guan, Baokai Xia, Qi Huang, Jingjing Duan and Sheng Chen*, Water Spillover to Expedite Two-Electron Oxygen Reduction, Advanced Materials, 2025, 37, 241039.

[97] Ming Li, Kang Yang, Yuntong Sun, Tianqi Gao, Zhihao Nie, Sheng Chen, Qiang Li*, Jingjing Duan*, Local Steric Hindrance for CO2 Electroreduction at a Thermodynamic Potential and Wide Working Window, Advanced Energy Materials, 2024, 14, 2303073.

[96] Jingjing Duan, Sheng Chen, and Chuan Zhao, Ultrathin metal organic framework array for efficient water splitting, Nature Communications, 2017, 8, 15341. [IF: 11.88; ESI highly cited paper]

[95] Hongxin Guan, Sheng Chen, Jingjing Duan,* Regulated diatomic distance of Cu diatoms promoting carbon−carbon coupling during CO2 electroreduction, Small, 2024, 21, DOI: 10.1002/smll.202406605.

[94] Haiyi Guo, Di Li, Sheng Chen, Shiyu Dai, Wei Ma, Jingjing Duan,* A local Proton−Transport Promoter for Industrial CO2 Electroreduction to Multicarbon Products, Journal of Materials Chemistry A, 2025, 13, 348-355.

[93] Baokai Xia, Jiale Du, Ming Li, Jingjing Duan, and Sheng Chen*, Pseudo‐Jahn Teller Effect Breaks the pH Dependence in Two‐Electron Oxygen Electroreduction, Advanced Materials, 2024, 36, 2401641

[92] Hao Chen, Kang Yang, Chen Jia, Chuan Zhao,* Jingjing Duan,* Tunable Ag-Ox coordination for industrial-level carbon-negative CO2 electrolysis, Nano Energy, 2024, 131, 110265.

[91] Kang Yang, Guoliang Xu, Jingjing Duan,* Research on Mass Transfer Characteristics of CO2 Reduction Electrolytic Cell Based on Membrane Electrode Assembly, Journal of Engineering Thermophysics, 2024, 233615.  

[90] Kang Yang, Yuntong Sun, Sheng Chen,* Ming Li, Min Zheng, Lushan Ma, Wenjun Fan, Yao Zheng, Qiang Li,* Jingjing Duan,* Less‐Coordinated Atomic Copper‐Dimer Boosted Carbon–Carbon Coupling During Electrochemical CO2 Reduction, Small, 2023, 19, 2301536.

[89] Baokai Xia, Fengqian Lou, Shuaishuai Xu, Sheng Chen, Jingjing Duan*, Entropy-directed metal–organic frameworks drive solar-electrolytic water splitting, Chemical Engineering Journal, 2022, 480, 148017.

[88] Muhammad Kashif Aslam, Herui Wang, Zhihao Nie, Sheng Chen, Qiang Li,* Jingjing Duan*,Unlock Flow-type Reversible Aqueous Zn-CO2 Batteries, Materials Horizons, 2024, 11, 2657-2666.

[87] Muhammad Sohail Riaz, Qi Huang, Jingjing Duan, Sheng Chen, Fu-Qiang Huang, Pau Farras Costa, Hierarchical (Ni, Co) 0.85 Se Sheets for Efficient Oxygen Evolution Reaction Electrocatalysis: A Combined Approach of Fabrication Control and Mechanistic Understanding, Chemical Communications, 2024, 60, 13526-13529.

[86] Laiquan LiChangfa LiJiale DuQianwei HuangJingjing DuanJiawei LiuSheng Chen, High-Entropy Selenides with Tunable Lattice Distortion as Efficient Electrocatalysts for Oxygen evolution Reaction, ChemSusChem, 2024, e202401871.

[85] Di Li, Jingjing Duan, Sheng Chen, Biomimetic gas-trapping electrode toward N2 electrofixation, Advanced Sustainable Systems, 2024, DOI: 10.1002/adsu.202400856.

[84] Zheng Zhu, Jingjing Duan, and Sheng Chen*, Metal-Organic Framework (MOF)-Based Clean Energy Conversion: Recent Advances in Unlocking its Underlying Mechanisms, Small, 2024, 20, 2309119.

[83] Shuchao Shen, Kang Yang, Guoliang Xu, Sheng Chen, Cesar Ortiz, Jingjing Duan,* Advancements and Challenges of Industrial-Level Acidic CO2 Electrolysis, MetalMat, 2024, 1, e28.

[82] Yuntong Sun, Ming Li, Jingjing Duan, Markus Antonietti, Sheng Chen, Entropy‐Driven Direct Air Electrofixation, Angewandte Chemie International Edition, 2024, 63, e202402678.

[81] Lili Jiang, Yuntong Sun, Jingjing Duan, Sheng Chen, Metal‐organic framework‐derived two‐dimensional in‐plane Janus catalysts promoting oxygen electroreduction to hydrogen peroxide, Chemistry–A European Journal, 2024, 30, e202303665.

[80] Licheng Yu, Wenwen Zhang, Zhihao Nie, Jingjing Duan, Sheng Chen, Machine learning guided tuning charge distribution by composition in MOFs for oxygen evolution reaction, RSC advances, 2024, 14, 9032-9037.

[79] Shan Ding, Yuxiang Zhang, Fengqian Lou, Ming Li, Qi Huang, Kang Yang, Baokai Xia, Cheng Tang, Jingjing Duan, Markus Antonietti, Sheng Chen, Oxygen-vacancy-type Mars–van Krevelen mechanism drives ultrafast dioxygen electroreduction to hydrogen peroxide, Materials Today Energy, 2023, 38, 101430.

[78] Liyuan Xu, Zheng Zhu, Jingjing Duan, Sheng Chen, Account of eco-friendly energy conversion reaction: iron-based nitrogen electrofixation, Electron, 2024, 2, e40.

[77] Shan Ding, Jingjing Duan, Sheng Chen, Recent advances of metal suboxide catalysts for carbon‐neutral energy applications, EcoEnergy, 2024, 2, 45-82.

[76] Tianqi Gao, Baokai Xia, Kang Yang, Di Li, Tianye Shao, Sheng Chen,* Qiang Li,* Jingjing Duan,* Techno-economic analysis and carbon footprint accounting for industrial CO2 electrolysis systems, Energy & Fuels, 2023, 37, 23, 17997–18008.

[75] Tianye Shao, Kang Yang, Sheng Chen,* Min Zheng, Ying Zhang, Qiang Li,* Jingjing Duan,* Tackling the Proton Limit under Industrial Electrochemical CO2 Reduction by a Local Proton Shuttle, Carbon Energy, 2023, 6, e416.

[74] Di Li, Sheng Chen, Jingjing Duan,* Decoupling *H Supply for Industrial-Level Nitrate Electroreduction Coupled with Glycerol Oxidation, Chem Catalysis, 2023, 3, 100656.

[73] Herui Wang, Muhammad Kashif Aslam, Zhihao Nie, Kang Yang, Xinran Li, Sheng Chen, Qiang Li, Dongliang Chao*and Jingjing Duan*, Dual-Anion Regulation for Reversible and Energetic Aqueous Zn–CO2 Batteries, Small Methods, 2023, 8, 2300867.

[72] Hao Chen,a Kang Yang,a Tianye Shao,a Dong Liu,a Hao Feng,a Sheng Chen,a, César A. Ortiz‐Ledón,b, Jingjing Duan,* and Qiang Li*, Augmented CO2 utilization for acidic industrial-level CO2 electroreduction to near-unity CO, Electrochimica Acta, 2023, 469. 143249.

[71] Haifeng Shen, Huanyu Jin, Haobo Li, Herui wang, Jingjing Duan, Yan Jiao, Shi Zhang Qiao, Acidic CO2-to-HCOOH electrolysis with industrial-level current on phase engineered tin sulfide, Nature Communications, 2023, 14, 2843.

[70] Shan Ding, Baokai Xia, Ming Li, Fengqian Lou, Chi Cheng, Tianqi Gao, Yuxiang Zhang, Kang Yang, Lili Jiang, Zhihao Nie, Hongxin Guan, Jingjing Duan, Sheng Chen, An abnormal size effect enables ampere-level O2 electroreduction to hydrogen peroxide in neutral electrolytes, Energy & Environmental Science, 2023, 16, 3363-3372.

[69] Jingjing Duan, Sheng Chen, Benjamin A. Chambers, Gunther G. Andersson, and Shi Zhang Qiao, 3D WS2 Nanolayers@Heteroatom-doped Graphene Films as Hydrogen Evolution Catalyst Electrodes, Advanced Materials, 2015, 27, 4234-4241. [IF: 25.81; ESI highly cited paper]

[68] Lushan Ma, Ning Liu, Bingbao Mei, Kang Yang, Bingxin Liu, Kai Deng, Ying Zhang, Hao Feng, Dong Liu, Jingjing Duan*, Zheng Jiang, Hui Yang, Qiang Li*, In Situ-Activated Indium Nanoelectrocatalysts for Highly Active and Selective CO2 Electroreduction around the Thermodynamic Potential, ACS Catalysis, 2022, 12, 14, 8601–8609.

[67] Muhammad Kashif Aslam, Kang Yang, Sheng Chen,* Qiang Li,* Jingjing Duan,* Clarifying the local microenvironment of metal–organic frameworks and their derivatives for electrochemical CO2 reduction: advances and perspectives, EES Catalysis, 2023, 1, 179-229.

[66] Baokai Xia, Qi Huang, Haiming Wang, Yu. Licheng, Shan Ding, Lili Jiang, Ming Li, Jingjing Duan*, Sheng Chen, Tandem- parallel electrochemical cells to produce hydrogen peroxide at reduced energy consumption, ACS Applied Materials & Interfaces, 2023, 15, 27, 32416–32424.

[65] Zhihao Nie, Licheng Yu, Lili Jiang, Ming Li, Shan Ding, Baokai Xia, Chi Cheng,* Jingjing Duan,* Sheng Chen,* Metal-organic framework (MOF) thickness control for carbon dioxide electroreduction to formate, Carbon Neutralization, 2023, 2, 458-466.

[64] Haiming Wang, Ming Li, Jingjing Duan, Sheng Chen*, Porous yet densely packed metal-organic frameworks (MOFs) toward ultrastable oxygen evolution at practical current densities, Materials Chemistry Frontiers, 2023, 7, 5005-5014.

[63] Di Li, Shan Ding, Yuxiang Zhang, Jingjing Duan, Sheng Chen, Acid-stable ebonex for continuous-flow nitrogen electrofixation, Energy & Fuels, 2023, 37, 23, 18216–18225.

[62] Licheng Yu, Zhihao Nie, Sicong Xie, Lili Jiang, Baokai Xia, Ming Li, Chi Cheng*, Jingjing Duan*, Markus Antonietti, Sheng Chen*, Bioinspired inhibition of aggregation in metal-organic frameworks (MOFs), iScience, 2023, 26, 106239.

[61] Bingxin Liu, Lushan Ma, Hao Feng, Ying Zhang, Jingjing Duan, Yongjie Wang*, Dong Liu*, and Qiang Li*, Photovoltaic-Powered Electrochemical CO2 Reduction: Benchmarking against the Theoretical Limit, ACS Energy Letter, 2023, 8, 2, 981–987.

[60] Chen Zhang, Jingjing Duan, Sheng Chen*, Record volumetric activities of oxygen electroreduction in partly packing graphene/AgTCNQ electrodes, Carbon Trends, 2023, 11, 100254.

[59] Yimin Xuan*, Jingjing Duan*, Cheng Tang*, Qiang Zhang*, Editorial: CO2 reduction reaction, what’s next? Next Energy, 2023, DOI: 10.1016/j.nxener.2023.100010.

[58] Ning Liu, Longfei Chen, Kai Deng, Hao Feng, Ying Zhang, Jingjing Duan, Dong Liu, Qiang Li, Multiscale model to resolve the chemical environment in a pressurized CO2-captured solution electrolyzer, Science Bulletin, 2023, 68, 1143-1152.

[57] Yuntong Sun, Shuaishuai Xu, César A Ortíz‐Ledón, Junwu Zhu, Sheng Chen, Jingjing Duan,* Frontispiece: Biomimetic assembly to superplastic metal–organic framework aerogels for hydrogen evolution from seawater electrolysis, Exploration, 2021, 1, 20210325.

[56] Shuaishuai Xu, Ming Li, Haiming Wang, Yuntong Sun, Wanying Liu*, Jingjing Duan*, Sheng Chen*, High-Entropy Metal–Organic Framework Arrays Boost Oxygen Evolution Electrocatalysis, The Journal of Physical Chemistry C, 2022, 126, 14094.

[55] Yuntong Sun, Jingjing Duan*, Sheng Chen*, Asymmetric acidic/alkaline N2 electrofixation accelerated by high-entropy metal-organic framework (MOF) derivatives, Carbon Energy, 2022, 5, e263.

[54] Shan Ding, Yuxiang Zhang, Fengqian Lou, Muhammad Kashif Aslam, Yuntong Sun, Ming Li, Jingjing Duan*, Yibing Li*, Sheng Chen*, “Uncapped” metal–organic framework (MOF) dispersions driven by O2 plasma towards superior oxygen evolution electrocatalysis, Journal of Materials Chemistry A, 2022,10, 20813-20818.

[53] Xianlong Zhou, Jieqiong Shan, Ling Chen, Bao Yu Xia, Tao Ling, Jingjing Duan, Yan Jiao, Yao Zheng,* Shi-Zhang Qiao,* Stabilizing Cu2+ Ions by Solid Solutions to Promote CO2 Electroreduction to Methane, Journal of the American Chemical Society, 2022, 144, 5, 2079–2084.

[52] Shan Ding; Yuntong Sun; Fengqian Lou; Lichen Yu; Baokai Xia; Jingjing Duan*, Yongzhi Zhang, Sheng Chen,* Plasma-regulated two-dimensional high entropy oxide arrays for synergistic hydrogen evolution: From theoretical prediction to electrocatalytic applications, Journal of Power Sources, 2022, 520, 230873.

[51] Sicong Xie, Bingbao Mei, Zheng Jiang, Sheng Chen,* Jingjing Duan,* Size separation of Bi2WO6 Nanolayers Promoting Electroreduction of Carbon Dioxide to Format, Applied Surface Science, 2022, 611, 155499.

[50] Muhammad Kashif Aslam, Herui Wang, Sheng Chen*, Qiang Li*, Jingjing Duan*, Progress and Perspectives of Metal (Li, Na, Al, Zn and K)-CO2 Batteries, Materials Today Energy, 2022, 31, 101196.

[49] Yuntong Sun, Lei Yu, Shuaishuai Xu, Sicong Xie, Lili Jiang, Jingjing Duan, Junwu Zhu*, Sheng Chen,* Battery-driven N2 electrolysis enabled by high-entropy catalysts: form theoretical prediction to prototype model, Small, 2022, 18, 2106358.

[48] Sheng Chang, Yimin Xuan,* Jingjing Duan, Kai Zhang, High-Performance Electroreduction CO2 to Formate at Bi/Nafion Interface, Applied Catalysis B: Environmental, 2022, 306, 121135.

[47] Kai Deng, Ying Zhang, Hao Feng, Ning Liu, Lushan Ma, Jingjing Duan, Yongjie Wang, Dong Liu*, Qiang Li*, Efficient solar fuel production with a high-pressure CO2-captured liquid feed, Science Bulletin, 2022, 67, 1467-1476.

[46] Baokai Xia,# Qi Huang,# Kaijie Wu, Lili Jiang, Ming Li, Licheng Yu, Shan Ding, Zhihao Nie, Dingyang Hua, Jingjing Duan, Sheng Chen*, Dynamic gas-diffusion electrodes for oxygen electroreduction to hydrogen peroxide, AICHE Journal, 2023, 69, e18022.

[45] Zheng Zhu, Qiangqiang Song, Baokai Xia, Lili Jiang, Jingjing Duan, Sheng Chen, Perovskite Catalysts for Oxygen Evolution and Reduction Reactions in Zinc-Air Batteries, Catalysts, 2022, 12, 1490.

[44] Ying Zhang, Conglin Ye, Jingjing Duan, Hao Feng, Dong Liu, Qiang Li, Solar-Driven Carbon Dioxide Reduction: A Fair Evaluation of Photovoltaic-Biased Photoelectrocatalysis and Photovoltaic-Powered Electrocatalysis, Frontiers in Energy Research, 2022, 10, 956444.

[43] Yuntong Sun, Baokai Xia, Shan Ding, Licheng Yu, Sheng Chen*, Jingjing Duan*, Rigid two-dimensional indium metal-organic frameworks boosting nitrogen electroreduction at all pH values, Journal of Materials Chemistry A, 2021, 9, 2004020047. JMCA Emerging Investigator Themed Issue.

[42] Yuntong Sun, Shan Ding, Shuaishuai Xu, Jingjing Duan*, Sheng Chen*, Metallic two-dimensional metal-organic framework arrays for ultrafast water splitting, Journal of Power Sources, 2021, 494, 229733.

[41] Yuntong Sun, Shuaishuai Xu, César A Ortíz‐Ledón, Junwu Zhu*, Sheng Chen*, Jingjing Duan*, Biomimetic assembly to superplastic metal–organic framework aerogels for hydrogen evolution from seawater electrolysis, Exploration, 2021, 1, 20210021.

[40] Yuntong Sun, Shan Ding, Chen Zhang, Jingjing Duan*, Sheng Chen*, A Shape-memory V3O7·H2O Electrocatalyst for Foldable N2 Fixation, Journal of Materials Chemistry A, 2021, 9, 1603-1609. [IF: 11.30]

[39] Jingjing Duan, Sheng Chen, Mietek Jaroniec, and Shi Zhang Qiao, Porous C3N4 Nanolayers@N-graphene Films as Catalyst Electrodes for Highly Efficient Hydrogen Evolution, ACS Nano, 2015, 9, 931-940. [IF: 13.90; ESI highly cited paper]

[38] Yuntong Sun, Tianyu Jiang, Jingjing Duan*, Lili Jiang, Xuemin Hu, Hongan Zhao, Junwu Zhu*, Sheng Chen*, and Xin Wang, Two-Dimensional Nanomesh Arrays as Bifunctional Catalysts for N2 Electrolysis, ACS Catalysis, 2020, 10, 19,11371-11379. [IF: 12.16]

[37] Jingjing Duan,   Yuntong Sun,   Sheng ChenXianjue Chen and  Chuan Zhao, A zero-dimensional nickel, iron–metal–organic framework (MOF) for synergistic N2 electrofixation, Journal of Materials Chemistry A, 2020, 8, 18810-18815. [IF: 11.30]

[36] Jingjing Duan, Sheng Chen, Sheng Dai, and Shi Zhang Qiao, Shape Control of Mn3O4 Nanoparticles on Nitrogen-doped Graphene for Enhanced Oxygen Reduction Activity, Advanced Functional Materials, 2014, 24, 2072–2078. [IF: 15.62; ESI highly cited paper]

[35] Jingjing Duan, Sheng Chen, Mietek Jaroniec, and Shi Zhang Qiao, Heteroatom-doped Graphene-based Materials for Energy-relevant Electrocatalytic Processes, ACS Catalysis, 2015, 9, 5207-5234. [IF: 12.16; ESI highly cited paper], 2020 ACS Catalysis most cited papers rank 4.

[34] Jingjing Duan, Yao Zheng, Sheng Chen, Youhong Tang, Mietek Jaroniec and Shi Zhang Qiao, Mesoporous Hybrid Material composed of Mn3O4 Nanoparticles on Nitrogen-doped Graphene for Highly Efficient Oxygen Reduction Reaction, Chemical Communications, 2013, 49, 7705-7707. [IF: 6.16; ESI highly cited paper]

[33] Jingjing Duan, Sheng Chen, and Chuan Zhao, Strained nickel phosphide nanosheet array, ACS Applied Materials & Interfaces, 2018, 10, 30029. [IF: 8.46]

[32] Jingjing Duan, Lili Jiang, Xing Guo, Sheng Chen, Guoxiu Wang, Chuan Zhao, Mxene‐Directed Dual Amphiphilicity at Liquid, Solid, and Gas Interfaces, Chemistry–An Asian Journal, 2018, 13, 3850. [IF: 3.70]

[31] Jingjing Duan, Sheng Chen, Yibing Li, Chuan Zhao, Closely Arranged 3D–0D Graphene–Nickel Sulfide Superstructures for Bifunctional Hydrogen Electrocatalysis, ACS Applied Energy Materials, 2018, 1, 6368.

[30] Jingjing Duan, Sheng Chen, Anthony Vasileff, and Shi Zhang Qiao, Anion and Cation Modulation in Metal Compounds for Bifunctional Overall Water Splitting, ACS Nano, 2016, 10, 8733-8745. [IF: 13.90; ESI highly cited paper]

[29] Jingjing Duan, Xiaoheng Liu, Qiaofeng Han, Xin Wang, Controlled morphologies and optical properties of ZnO films and their photocatalytic activities, Journal of Alloys and Compounds, 2011, 509, 9255-9263. [IF: 4.18]

[28] Lili Jiang, Jingjing Duan, Jun Zhu, Sheng Chen, Markus Antonietti, Iron Clusters-Directed Synthesis of 2D/2D Fe-NC/MXene Superlattice-Like Heterostructure with Enhanced Oxygen Reduction Electrocatalysis, ACS Nano, 2020, 14, 2, 2436-2444. [IF: 13.90]

[27] Shuqiang Jiao, Yang Gao, Jianbang Ge, Xinrui Wang, Tao Wu, Fei Zhu, Jingjing Duan, Mingyong Wang, Jilai Xue, Molten salt electrochemical synthesis of low-cost Vn+1AlCn (n=1,3) and their derived two-dimensional MXenes, Ceramics International, 2022, 48, 17975-17980.

[26] Hao Chen, Yuanke Wu, Jingjing Duan, Renming Zhan, Wei Wang, Min-Qiang Wang, Yuming Chen*, Maowen Xu*, Shu-Juan Bao*, (001) Facet-Dominated Hierarchically Hollow Na2Ti3O7 as a High-Rate Anode Material for Sodium-Ion Capacitors, ACS Applied Materials & Interfaces, 2019. 11, 42197-42205.

[25] Sheng Chen, Jingjing Duan, Anthony Vasileff, and Shi Zhang Qiao, Size Fractionation of Two‐Dimensional Sub‐Nanometer Thin Manganese Dioxide Crystals towards Superior Urea Electrocatalytic Conversion, Angewandte Chemie International Edition, 2016, 128, 3868-3872. [IF: 12.26]

[24] Sheng Chen, Jingjing Duan, Wei Han and Shi Zhang Qiao, A Graphene-MnO2 Framework as a New Generation of Three-dimensional Oxygen Evolution Promoter, Chemical Communications, 2014, 50, 207-209. [IF: 6.16]

[23] Sheng Chen, Jingjing Duan, Pengju Bian, Youhong Tang, Rongkun Zheng, and Shi Zhang Qiao, Three-Dimensional Smart Catalyst Electrode for Oxygen Evolution Reaction, Advanced Energy Materials, 2015, 5, 1500936. [IF: 24.89]

[22] Sheng Chen, Jingjing Duan, Youhong Tang, Bo Jin, Shi Zhang Qiao, Molybdenum Sulfide Clusters-Nitrogen-Doped Graphene Hybrid Hydrogel Film as an Efficient Three-Dimensional Hydrogen Evolution Electrocatalyst, Nano Energy, 2015, 11, 11-18. [IF: 15.55; ESI highly cited paper]

[21] Sheng Chen, Jingjing Duan, Jingrun Ran, and Shi Zhang Qiao, Paper-based N-doped Carbon Films for Enhanced Oxygen Evolution Electrocatalysis, Advanced Science, 2015, 2, 1400015. [IF: 15.80]

[20] Sheng Chen, Jingjing Duan, Yao Zheng, Xuemin Chen, Xiwen Du, Mietek Jaroniec, and Shi Zhang Qiao, Ionic Liquid-Assisted Synthesis of N/S-Double Doped Graphene Microwires for Oxygen Evolution and Zn-air Batteries, Energy Storage Materials, 2015, 1, 17-24. [IF: 15.97]

[19] Sheng Chen, Jingjing Duan, Mietek Jaroniec, Shi Zhang Qiao, Nitrogen and Oxygen Dual-doped Carbon Hydrogel Film as a Substrate-free Electrode for Highly Efficient Oxygen Evolution Reaction, Advanced Materials, 2014, 26, 2925-2930. [IF: 25.81; ESI highly cited paper]

[18] Sheng Chen, Jingjing Duan, Mietek Jaroniec, and Shi Zhang Qiao, Three-dimensional N-doped Graphene Hydrogel/NiCo Double Hydroxide Electrocatalysts for Highly Efficient Oxygen Evolution Reaction, Angewandte Chemie-International Edition, 2013, 52, 13567-13570. [IF: 12.26; ESI highly cited paper]

[17] Sheng Chen, Jingjing Duan, Jingrun Ran, Mietek Jaroniec and Shi Zhang Qiao, N-doped Graphene Film-Confined Nickel Nanoparticles as Efficient Three-dimensional Oxygen Evolution Electrocatalysts, Energy & Environmental Science, 2013, 6, 3693-3699. [IF: 33.25]

[16] Sheng Chen, Jingjing Duan, Youhong Tang, and Shi Zhang Qiao, Hybrid Hydrogels of Porous Graphene and Nickel Hydroxide as Advanced Supercapacitor Materials, Chemistry-A European Journal, 2013, 19, 7118-7124. [IF: 5.16]

[15] Sheng Chen, Jingjing Duan, Mietek Jaroniec and Shi Zhang Qiao, Hierarchically Porous Graphene-based Hybrid Electrodes with Excellent Electrochemical Performance, Journal of Materials Chemistry A, 2013, 1, 9409-9413. [IF: 10.73]

[14] Yuntong Sun, Jingjing Duan, Junwu Zhu, Sheng Chen, Markus Antonietti, Metal-Cluster-Directed Surface Charge Manipulation of Two-Dimensional Nanomaterials for Efficient Urea Electrocatalytic Conversion, ACS Applied Nano Materials 2018, 1, 6649-6655.

[13] Huabin Zhang, Zuju Ma, Jingjing Duan, Huimin Liu, Guigao Liu, Tao Wang, Kun Chang, Mu Li, Li Shi, Xianguang Meng, Jinhua Ye, Active Sites Implanted Carbon Cages in Core-Shell Architecture: Highly Active and Durable Electrocatalyst for Hydrogen Evolution Reaction, ACS Nano, 2016, 10, 684-694. [IF: 13.90; ESI highly cited paper]

[12] Bryan HR Suryanto, Sheng Chen, Jingjing Duan, Chuan Zhao, Hydrothermally Driven Transformation of Oxygen Functional Groups at Multiwall Carbon Nanotubes for Improved Electrocatalytic Applications, ACS Applied Materials & Interfaces, 2016, 8, 35513-35522. [IF: 8.46]

[11] Yinlan Ruan, Liyun Ding, Jingjing Duan, Heike Ebendorff-Heidepriem, and Tanya M. Monro, Integration of conductive reduced graphene oxide into microstructured optical fibres for optoelectronics applications, Scientific Reports, 2016, 6, 21682. [IF: 4.12]

[10] Sheng Chen, Wei Xing, Jingjing Duan, Xijun Hu and Shi Zhang Qiao, Nanostructured Morphology Control for Efficient Supercapacitor Electrodes, Journal of Materials Chemistry A, 2013, 1, 2941-2954. [IF: 10.73; ESI highly cited paper]

[9] Min-Qiang Wang, Chun Tang, Cui Ye, Jingjing Duan, Changming Li, Yuming Chen, Shu-Juan Bao, Maowen Xu, Engineering the nanostructure of molybdenum nitride nanodot embedded N-doped porous hollow carbon nanochains for rapid all pH hydrogen evolution, Journal of Materials Chemistry A, 2018, 6, 14734-14741. [IF: 10.73]

[8] Suqi He, Suyu He, Feng Gao, Xin Bo, Qingxiang Wang, Xianjue Chen, Jingjing Duan, Chuan Zhao, Ni2P@ carbon core-shell nanorod array derived from ZIF-67-Ni: Effect of phosphorization temperature on morphology, structure and hydrogen evolution reaction performance, Applied Surface Science, 2018, 457, 933-941. [IF: 5.16]

[7] Xue XiaBingyang ShiLei WangYang LiuYan ZouYun ZhouYu ChenMeng ZhengYingfang ZhuJingjing Duan, et al., From mouse to mouse-ear cress: Nanomaterials as vehicles in plant biotechnology, Exploration, 2021, 1, 9-20.

[6] Jingjing Duan, Sheng Chen, Chuan Zhao, A Hollow Superstructure for Electrocatalytic Hydrogen Evolution Reaction, Poster presentation, 5th Nano Today Conference, Hawaii, USA, 2017.

[5] Jingjing Duan, Sheng Chen, Shizhang Qiao, A Three-Dimensional Hybridized Film as Hydrogen Evolution Catalyst Electrodes, Poster Presentation, Nanotechnology Entrepreneurship Workshop for Early Career Researchers, Gold Coast, Australia, 2015.

[4] Jingjing Duan, Shizhang Qiao. A Three-dimensional Catalyst Electrode (porous C3N4 nanolayer @ N-doped graphene film) for Efficient Hydrogen Evolution, Poster Presentation, CHEMECA, Perth, Australia, 2014.

[3] Jingjing Duan, Sheng Chen, Shizhang Qiao. Shape Control of Mn3O4Nanoparticles on Nitrogen-doped Graphene for Enhanced Oxygen Reduction Activity, Poster Presentation, ACMM23 & ICONN2014, Adelaide, Australia, 2014. ("Best Poster Presentation award").

[2] Jingjing Duan, Xiaoheng Liu, Xin Wang. Synthesis of Radical-like ZnO Crystals by a Green Chemistry Route, and its Optical Properties, Oral Presentation, China Material Research Session, China, 2010.

[1] Jingjing Duan, Xiaoheng Liu, Cui Bao, Hongjun Ji, Effect of Casein on the Self-Assembled Silica Film Grown at the Air-Water Interface, National PhD candidates Academic conference, China, 2009.

 

科研创新

专利

  1. 段静静,邵天晔,杨康,陈胜,李强;一种用于电催化还原二氧化碳的金属/导电聚合物催化剂及其制备方法;申请号:202310180030.4。
  2. 段静静,郑敏,杨康,陈胜,马路山,李强;用于电化学还原二氧化碳的气体扩散电极;申请号:202110523172.7。
  3. 段静静,杨康,郑敏,陈胜,马路山,李强;一种用于电化学还原二氧化碳的膜式液流电解池及测试工艺;申请号:202110560256.8。
  4. 段静静,李明,陈胜,杨康,李强,一种电催化还原铟基气体扩散电极、制备方法及其应用;申请号:202311419545.1。
  5. 马路山,李强,段静静,杨康,刘丙鑫,刘东;一种用于电催化CO2还原的贯穿流场膜式反应器;申请号:202110964402.3。
  6. 陈胜,黄齐,段静静,李明,夏宝凯,汪信,一种锌基气体扩散电极制备方法及其应用;申请号:2023106808923。
  7. 陈胜,娄凤倩,段静静,丁珊,李明,蒋丽丽,夏宝凯,缺陷调控氧化锌气体扩散电极及其应用;受理号202211063163.5。
  8. 陈胜,黄齐,李明,夏宝凯,段静静,汪信,快速电催化空气还原合成双氧水的锌基气体扩散电极;受理号202314119463.x。
  9. 陈胜,夏宝凯,孙运通,段静静,汪信,二维InCd导电金属有机化合物的制备及其在快速电催化固氮合成氨的应用;申请号CN114075336B。
  10. 陈胜、徐帅帅、蒋丽丽、夏宝凯、段静静、朱俊武,缺陷调控的石墨烯/Ag-TCNQ量子点复合材料,2020.08.22,中国,申请号CN114073988B。
  11. 汪信,段静静, 刘孝恒;放射状氧化锌晶体的制备方法;2012年授权,专利号: ZL201010525804。



 

 

教学活动

教授《碳中和技术》、《能源材料》、《现代分析测试技术》课程。

指导学生情况

指导博士生7名(2名国际留学生),硕士生6名(1名国际留学生);和南京理工大学李强老师联合指导博士生1名,澳大利亚阿德莱德大学Shi Zhang Qiao教授联合指导学生2名。

毕业硕士生4名,去向如下:

邵天晔 工作单位:中国广核集团有限公司;

王贺瑞:浙江省特种设备科学研究院;

高天琦:南京天加环境科技有限公司;

郭海燚:中航光电科技股份有限公司;