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陈令允
男, 重庆大学化学化工学院, 教授/研究员/教授级高工或同等级别
学习/工作经历
1999年9月‒2003年6月 江苏师范大学 化学化工学院 本科
2003年9月‒2005年6月 南京理工大学 化工学院 硕士
2005年9月‒2009年3月 南京大学 化学化工学院 博士
研究领域和兴趣
二维新能源材料
主要业绩
主要集中于二个领域:新型能源材料的制备与电化学储能。(i)在新型能源材料的制备领域:我们的目标是通过简单、绿色的化学方法,实现新颖微/纳米能源材料的简单、大量、均一和可重复合成;(ii)在电化学储能领域:研究所制备的新型微/纳米能源材料在金属离子电池、电容器、醇电催化等中的电化学性能及其器件化应用。
立志于实现一系列二维纳米结构功能材料(过渡金属氧化物、氢氧化物、碳材料、功能配合物等)的可控制备及其在电化学储能中的开发和应用提供理论和实验依据。
目前已报道的二维材料如下:
(1)基于一元羧酸体系的二维材料:CQU-Chen-Co-O-1(2015年)、CQU-Chen-Ni-O-H-1(2017年)、CQU-Chen-Zn-Co-O-1(2017年)、CQU-Chen-Zn-Co-O-2(2018年)等;
(2)基于二元羧酸体系的二维材料:CQU-Chen-OA-Co-2-1(2015年)、CQU-Chen-Co-OA-1(2018年)、CQU-Chen-Ni-OA-1(2020年)等;
(3)基于氨基酸体系的二维材料:CQU-Chen-Gly-Co-3-1(2016年)、CQU-Chen-Gly-Ni-2-1(2018年)、CQU-Chen-Gly-Co-Ni-1(2020年)等。
在Energy Storage Materials、Chemical Engineering Journal、Carbon、Journal of Power Sources、Small、ACS Sustainable Chemistry & Engineering、ACS Applied Materials & Interfaces、Chemical Science、Chemical Communications、Journal of Materials Chemistry A、Advances in Colloid and Interface Science、Journal of Energy Chemistry、Journal of Materials Science & Technology等上发表SCI论文80余篇,其中1%ESI高被引用论文9篇、1‰ESI热点论文2篇、2015年期刊Hot Papers1篇和他引超过100次论文12篇,累计他引7000余次,h-index: 40。
应邀长期担任ACS(Journal of the American Chemical Society、ACS Nano、ACS Energy Letters、ACS Sustainable Chemistry & Engineering、Inorganic Chemistry、Journal of Physical Chemistry Letters、ACS Applied Materials & Interfaces等)、RSC(Chemical Science、Chemical Communications、Inorganic Chemistry Frontiers、Journal of Materials Chemistry A等)、Wiley(Advanced Materials、Advanced Energy Materials、Advanced Functional Materials、Advanced Science、Small、Small Methods、ChemSusChem、Chemistry A European Journal等)、Elsevier(Materials Today、Coordination Chemistry Reviews、Applied Catalysis B: Environmental、Nano Energy、Energy Storage Materials、Nano Energy、Renewable and Sustainable Energy Reviews、Chemical Engineering Journal、Journal of Power Sources、Carbon、Journal of Colloid and Interface Science、Journal of Materials Science & Technology、Nano Materials Science、Journal of Hazardous Materials等)、Springer Nature(Nature Communications、SCIENCE CHINA Chemistry、SCIENCE CHINA Materials等)、Taylor & Francis(Critical Reviews in Solid State and Materials Sciences等)等出版社五十多个SCI期刊的Reviewer和Adjudicative Reviewer。
代表成果
[1] Huayu Wang, Jie Bai, Qingqing He, Yanxin Liao, Lingyun Chen*. Metal ion and organic ligand disubstituted bimetallic metal‒organic framework nanosheets for high-performance alkaline zinc-based batteries. Chem. Commun. 2024, 60, 9590–9593. (2023IF: 4.3)
[2] Qingqing He, Jie Bai, Yanxin Liao, Huayu Wang, Mujun Long*, Lingyun Chen*. Polypyride Intercalation Boosting the Kinetics and Stability of V3O7·H2O Cathodes for Aqueous Zinc-Ion Batteries. J. Energy Chem. 2024, 97, 361–370. (2023IF: 14)
[3] Qingqing He, Yanxin Liao, Mengda Xue, Huayu Wang, Jie Bai, Lingyun Chen*. Large scale and oxygen vacancy VO2 porous thin sheets to enable high-performance zinc ion storage. Chem. Commun. 2024, 60(47), 6051–6054. (2023IF: 4.3)
[4] Yanxin Liao, Chun Yang, Jie Bai, Qingqing He, Huayu Wang, Haichao Chen*, Qichun Zhang* and Lingyun Chen*. Insights into the cycling stability of manganese-based zinc-ion batteries: from energy storage mechanisms to capacity fluctuation and optimization strategies. Chem. Sci. 2024, 15, 7441–7473. (2023IF: 7.6)
[5] Qingqing He, Jie Bai, Huayu Wang, Yanxin Liao, Lingyun Chen*. 2D Organic-Inorganic Supercrystalline Structures with 3D Layered Ion Channels for Efficient Aqueous Zinc Ion Storage. Chem. Eng. J. 2024, 485, 149893. (2023IF: 13.3, 2024年ESI高被引论文)
[6] Mengcheng Wu, Jie Bai, Mengda Xue, Xun Zhao, Lei Mao, Lingyun Chen*. Oxygen vacancy enriched Na1.19V8O20·4.42H2O nanosheets for fast and stable Zn-ion batteries. Chem. Commun. 2023, 59, 11668–11671. ((2023IF: 4.3)
[7] Haoyu Wang, Xuehua Ren, Jun Chen, Weili Xu, Qingqing He, Huayu Wang, Feiyang Zhan, Lingyun Chen*. Recent Advances of Emerging Oxyhydroxides for Electrochemical Energy Storage Applications. J. Power Sources, 2023, 554, 232309. (2021IF: 9.794, 2023年ESI高被引论文)
[8] Huayu Wang, Qingqing He, Feiyang Zhan, Lingyun Chen*. Fe, Co-codoped layered double hydroxide nanosheet arrays derived from zeolitic imidazolate frameworks for high-performance aqueous hybrid supercapacitors and Zn-Ni batteries. J. Colloid Interf. Sci. 2023, 630, 286–296. (2021IF: 9.965, 2023年ESI高被引论文)
[9] Mengda Xue, Jie Bai, Mengcheng Wu, Qingqing He, Qichun Zhang*, Lingyun Chen*. Carbon-assisted anodes and cathodes for zinc ion batteries: From basic science to specific applications, opportunities and challenges. Energy Storage Mater. 2023, 62, 102940. (2021IF: 20.831)
[10] Xun Zhao, Lei Mao, Qihui Cheng, Fangfang Liao, Guiyuan Yang, Lingyun Chen*. A new sodium vanadyl fluorophosphate as high-rate and stable cathode for aqueous hybrid sodium-zinc batteries. Chem. Commun. 2022, 58, 7522–7525. (2021IF: 6.065)
[11] Weili Xu, Xun Zhao, Feiyang Zhan, Qingqing He, Huayu Wang, Jun Chen, Haoyu Wang, Xuehua Ren, Lingyun Chen*. Toward emerging two-dimensional nickel-based materials for electrochemical energy storage: progress and perspectives. Energy Storage Mater. 2022, 53, 79–135. (2021IF: 20.831)
[12] Feiyang Zhan, Huayu Wang, Qingqing He, Weili Xu, Jun Chen, Xuehua Ren, Haoyu Wang, Shude Liu*, Minsu Han, Yusuke Yamauchi*, Lingyun Chen*. Metal–organic frameworks and their derivatives for metal-ion (Li, Na, K and Zn) hybrid capacitors. Chem. Sci. 2022, 13, 11981–12015. (2021IF: 9.969)
[13] Feiyang Zhan, Shude Liu, Qingqing He, Xun Zhao, Minsu Han, Yusuke Yamauchi*, Lingyun Chen*. Metal–organic framework-derived heteroatom-doped nanoarchitectures for electrochemical energy storage: recent advances and future perspectives. Energy Storage Mater. 2022, 52, 685–735. (2021IF: 20.831)
[14] Yang Li, Biao Huang, Xun Zhao, Ziyang Luo, Shunfei Liang, Huizhen Qin, Lingyun Chen*. Zeolitic imidazolate framework-L-assisted synthesis of inorganic and organic anion-intercalated hetero-trimetallic layered double hydroxide sheets as advanced electrode materials for aqueous asymmetric super-capacitor battery. J. Power Sources, 2022, 527, 231149. (2021IF: 9.794, 2022年ESI高被引论文)
[15] Huayu Wang, Qingqing He, Shunfei Liang, Yang Li, Xun Zhao, Lei Mao, Feiyang Zhan, Lingyun Chen*. Advances and perspectives of ZIFs-based materials for electrochemical energy storage: Design of synthesis and crystal structure, evolution of mechanisms and electrochemical performance. Energy Storage Mater. 2021, 43, 531–578. (2020IF: 17.789)
[16] Qihui Cheng, Xun Zhao, Guiyuan Yang, Lei Mao, Fangfang Liao, Lingyun Chen*, Pingge He, Dingjie Pan, Shaowei Chen*. Recent Advances of Metal Phosphates-based Electrodes for High-Performance Metal Ion Batteries. Energy Storage Mater. 2021, 42, 842–882. (2020IF: 17.789)
[17] Xun Zhao, Lei Mao, Qihui Cheng, Fangfang Liao, Guiyuan Yang, Xihong Lu*, Lingyun Chen*. Interlayer Engineering of Preintercalated Layered Oxides as Cathode for Emerging Multivalent Metal-ion Batteries: Zinc and Beyond. Energy Storage Mater. 2021, 38, 397–437. (2020IF: 17.789)
[18] Yang Li, Ziyang Luo, Shunfei Liang, Huizhen Qin, Xun Zhao, Lingyun Chen*, Huayu Wang, Shaowei Chen*. Two-dimensional Porous Zinc Cobalt Sulfide Nanosheet Arrays with Superior Electrochemical Performance for Supercapatteries. J. Mater. Sci. Technol. 2021, 89, 199–208. (2020IF: 8.067)
[19] Biao Huang, Huayu Wang, Shunfei Liang, Huizhen Qin, Yang Li, Ziyang Luo, Chenglan Zhao, Li Xie, Lingyun Chen*. Two-dimensional porous cobalt-nickel tungstate thin sheets for high performance supercapattery. Energy Storage Mater. 2020, 32, 105–114. (2020IF: 17.789, 2022年ESI高被引论文)
[20] Xun Zhao, Qiming Liu, Qiaoxia Li, Lingyun Chen*, Lei Mao, Huayu Wang, Shaowei Chen*. Two-dimensional Electrocatalysts for Alcohol Oxidation: A Critical Review. Chem. Eng. J. 2020, 400, 125744. (2020IF: 13.273)
[21] Xun Zhao, Lei Mao, Qihui Cheng, Jie Li, Fangfang Liao, Guiyuan Yang, Li Xie, Chenglan Zhao, Lingyun Chen*. Two-dimensional Spinel Structured Co-based Materials for High Performance Supercapacitors: A Critical Review. Chem. Eng. J. 2020, 387, 124081. (2020IF: 13.273, 2020年ESI热点和高被引论文)
[22] Biao Huang, Wensong Wang, Tao Pu, Jie Li, Chenglan Zhao, Li Xie, Lingyun Chen*. Rational design and facile synthesis of two-dimensional hierarchical porous M3V2O8 (M = Co, Ni and Co-Ni) thin sheets assembled by ultrathin nanosheets as positive electrode materials for high-performance hybrid supercapacitors. Chem. Eng. J. 2019, 375, 121969. (2019IF: 10.652, 2022年ESI高被引论文)
[23] Jikui Zhu, Dianmei Song, Tao Pu, Jie Li, Biao Huang, Wensong Wang, Chenglan Zhao, Li Xie, Lingyun Chen*. Two-dimensional Porous ZnCo2O4 Thin Sheets Assembled by 3D Nanoflake Array with Enhanced Performance for Aqueous Asymmetric Supercapacitor. Chem. Eng. J. 2018, 336, 679–689. (2019IF: 10.652, 2018年ESI高被引论文)
[24] Yuqian Jiang, Lingyun Chen*, Haiqin Zhang, Qing Zhang, Weifan Chen, Jikui Zhu, Dianmei Song. Two-dimensional Co3O4 thin sheets assembled by 3D interconnected nanoflake array framework structures with enhanced supercapacitor performance derived from coordination complexes. Chem. Eng. J. 2016, 292, 1–12. (2019IF: 10.652, 2016年ESI高被引论文)
[25] Liying Xuan, Lingyun Chen*, Qingqing Yang, Weifan Chen, Xiaohuan Hou, Yuqian Jiang, Qing Zhang, Yuan Yuan. Engineering 2D multi-layer graphene-like Co3O4 thin sheets with vertically aligned nanosheets as basic building units for advanced pseudocapacitor materials. J. Mater. Chem. A, 2015, 3, 17525–17533. (2019IF: 11.301, 2015 Journal of Materials Chemistry A Hot Papers)
[26] Qing Zhang, Lingyun Chen*, Hong Xu, Xiaohuan Hou, Liying Xuan, Yuqian Jiang, Yuan Yuan. Amorphous 3D nanoflake array-assembled porous 2D cobalt-oxalate coordination polymer thin sheets with excellent pseudocapacitive performance. J. Mater. Chem. A, 2015, 3, 1847–1852. (2019IF: 11.301)
*以上信息由高级会员个人更新和维护。
