朱智强

教授

基本情况

朱智强,湖南大学化学化工学院教授、博士生导师,国家海外高层次青年人才计划入选者,湖南省科技创新领军人才,国家重点研发计划青年科学家项目负责人。分别于2010年和2015年在南开大学取得学士学位和博士学位,师从中国科学院院士陈军教授;2015年8月至2019年12月在新加坡南洋理工大学进行博士后研究,合作导师新加坡科学院/工程院院士陈晓东教授。2019年12月入职湖南大学化学化工学院,任教授、博士生导师。作为负责人承担国家重点研发计划青年科学家项目、国家海外高层次人才青年项目、国家自然科学基金青年/面上项目、湖南省科技创新领军人才项目等国家级/省部级项目8项。担任eScience、Chinese Chemical Letters、Carbon Neutralization等期刊编委/青年编委。主要研究方向为新型二次电池材料与器件设计,包括锂/钠离子电池、水系锌离子电池、有机储能电池等。

迄今为止,在J. Am. Chem. Soc., Angew. Chem. Int. Ed., Natl. Sci. Rev.等材料化学领域旗舰期刊共计发表SCI论文80余篇,总引用次数9000余次,H因子47。获授权中国专利5件。作为主要完成人,获2016年天津市自然科学一等奖、2020年高等学校科学研究优秀成果奖(科学技术)自然科学一等奖。

教育及工作经历

2015.08—2019.12,博士后 新加坡南洋理工大学(合作导师:陈晓东 院士)

2019.12—至今,教授 湖南大学化学化工学院

2010.09—2015.07,工学博士(材料物理与化学) 南开大学(导师:陈军 院士)

2006.09—2010.07,理学学士(材料化学 南开大学

学术成果

代表性研究论文:

[1]Xing Wu+ (co-first author), Huiling Peng+ (co-first author), Lei Zhang, Yaheng Geng, Zehao Yu, Mengjiao Li, Yuhong Nie, Zichao Yan, Mingshan Han, Yuxiang Hu, and Zhiqiang Zhu.* Scalable and universal synthesis of hierarchical organic/carbon composites towards practical organic batteries. eScience, 2025, DOI: 10.1016/j.esci.2025.100474.

[2]Wenli Xin, Yaheng Geng, Hui Zhang, Lei Zhang, Yu Han, Zichao Yan, Fangyi Cheng,* and Zhiqiang Zhu.* Stabilizing electrolytic Zn||MnO2 batteries under lean electrolyte conditions via synergistic anode and electrolyte engineering. Energy Storage Mater., 2025, 82: 104601.

[3]Fei Wang, Min Yang, Hui Zhang, Yu Han, Zichao Yan,* and Zhiqiang Zhu.* Electrolyte engineering strategies for aqueous Zn-S batteries. Commun. Mater., 2025, 6: 213.

[4]Zehao Yu+ (co-first author), Mengjiao Li+ (co-first author), Yu Han, Huiling Peng, Yaheng Geng, Xing Wu, Zichao Yan, and Zhiqiang Zhu.* Redox-active donor-acceptor conjugated microporous polymer for high-voltage and high-rate symmetric all-organic lithium-ion battery. Mater. Today Energy, 2025, 53: 101995.

[5]Hui Zhang, Zichao Yan,* Yu Han, Min Yang, Yaheng Geng, and Zhiqiang Zhu.* Amorphization triggers highly reversible intercalation chemistry in vanadium tetrasulfide for ultrafast aqueous zinc batteries. Energy Storage Mater., 2025, 80: 104440.

[6]Yaheng Geng, Yu Han, Tianran Zhang, Lei Zhang, Wenli Xin, Huiling Peng, Zichao Yan, and Zhiqiang Zhu.* Resolving the Zincophilicity-Desolvation Dilemma of Electrolyte Additives via Molecular Engineering for Achieving High-Rate Zinc Anodes with Minimized Polarization. Adv. Funct. Mater., 2025, 34: 2501537.

[7]Lei Zhang, Yu Han, Yaheng Geng, Hui Zhang, Hongguang Liu, Yan He, Zichao Yan, and Zhiqiang Zhu.* Aqueous Zinc-Ion Batteries with Boosted Stability and Kinetics under a Wide Temperature Range. Angew. Chem. Int. Ed., 2025, 64: e202500434.

[8]Huiling Peng, Yu Han, Lei Zhang, Yaheng Geng, Zehao Yu, Chen Xu, Yizhi Yuan, Zhiqun Zhou, Xiao Liang, Jian Zhu, and Zhiqiang Zhu.* Boosting Lithium Storage Performance of Small-Molecule Organic Cathodes through Synergistic Molecular Engineering and Nanostructure Design. Angew. Chem. Int. Ed., 2025, 64: e202502088.

[9]Yan He, Lei Zhang, Hongguang Liu, Zichao Yan,* and Zhiqiang Zhu.* Self-assembled monolayer boosts the air-stability and electrochemical reversibility of O3-type layered oxides for sodium-ion batteries. J. Mater. Chem. A, 2025, 13: 9120.

[10]Jinfei Zhang, Yijie Zhou, Hongbo Shu,* Zichao Yan,* Zhibin Wu, Yanxia Wang, Zhiqiang Zhu,* and Xianyou Wang. The design of chemisorption and catalysis synergistic defender for efficient room temperature sodium-sulfur batteries. J. Colloid Interf. Sci., 2025, 678: 292.

[11]Yaheng Geng, Wenli Xin, Lei Zhang, Yu Han, Huiling Peng, Min Yang, Hui Zhang, Xilin Xiao, Junwei Li, Zichao Yan, Zhiqiang Zhu,* and Fangyi Cheng.* Building electrode/electrolyte interphases in aqueous zinc batteries via self-polymerization of electrolyte additives. Natl. Sci. Rev., 2025, 12: nwae397.

[12]Mengfan Niu, Falian Wan, Wenli Xin, Lei Zhang, Xilin Xiao, Hui Zhang, Zichao Yan, and Zhiqiang Zhu.* Edge-Enriched MoS2 as a high-performance cathode for aqueous Zn-Ion batteries. Batteries & Supercaps, 2025, 8: e202400419.

[13]Yu Han, Zichao Yan, Lei Zhang, and Zhiqiang Zhu.* Recent progress in aqueous zinc-ion batteries at high zinc utilization. ChemSusChem, 2025, 18: e202401166.

[14]Hui Zhang, Min Yang, Jin Xiao, Zhibin Wu, Wenli Xin, Xilin Xiao, Mengfan Niu, Zichao Yan,* and Zhiqiang Zhu.* Internal electron donor accelerated sulfur redox for aqueous Zn–S batteries. Adv. Funct. Mater., 2024, 34: 2406125.

[15]Min Yang, Zichao Yan, Hui Zhang, Junwei Li, Zhiqiang Zhu,* Li Liu,* and Lifang Jiao.* Controllable synthesis of sub-10 nm ZnS nanograins confined in micro-size carbon skeleton for aqueous Zn–S batteries. Adv. Funct. Mater., 2024, 34: 2406077.

[16]Mengfan Niu, Wenli Xin, Lei Zhang, Min Yang, Yaheng Geng, Xilin Xiao, Hui Zhang, and Zhiqiang Zhu.* Selenium doping induced phase transformation and interlayer expansion boost the zinc storage performance of molybdenum disulfide. Inorg. Chem. Front., 2024, 11: 2272.

[17]Xilin Xiao, Lei Zhang, Wenli Xin, Min Yang, Yaheng Geng, Mengfan Niu, Hui Zhang, Zhiqiang Zhu.* Self-assembled layer of organic phosphonic acid enables highly stable MnO2 cathode for aqueous zinc batteries. Small, 2024, 20: 2309271.

[18]Lei Zhang, Jin Xiao, Xilin Xiao, Wenli Xin, Yaheng Geng, Zichao Yan, and Zhiqiang Zhu.* Molecular engineering of self-assembled monolayers for highly utilized Zn anodes. eScience, 2024, 4: 100205.

[19]Zichao Yan+ (co-first author), Junwei Li+ (co-first author), Hongguang Liu, Hui Zhang, Shibo Xi, and Zhiqiang Zhu.* A reversible six-electron transfer cathode for advanced aqueous zinc batteries. Angew. Chem. Int. Ed., 2023, 62: e202312000. (Hot Paper)

[20]Junwei Li, Lei Zhang, Wenli Xin, Min Yang, Huiling Peng, Yaheng Geng, Li Yang, Zichao Yan,* and Zhiqiang Zhu.* Rationally designed ZnTe@C nanowires with superior zinc storage performance for aqueous Zn batteries. Small, 2023, 19: 2304916.

[21]WenLi Xin, Jin Xiao,* Junwei Li, Lei Zhang, Huiling Peng, Zichao Yan, Zhiqiang Zhu.* Metal-organic frameworks with carboxyl functionalized channels as multifunctional ion-conductive interphase for highly reversible Zn anode. Energy Storage Mater., 2023, 56: 76–86.

[22]Huiling Peng, Jin Xiao, Zhonghan Wu, Lei Zhang, Yaheng Geng, Wenli Xin, Junwei Li, Zichao Yan, Kai Zhang, Zhiqiang Zhu.* N-Heterocycles extendedπ-conjugation enables ultrahigh capacity, long-lived, and fast-charging organic cathodes for aqueous zinc batteries. CCS Chem., 2023, 5: 1789–1801.

[23]Min Yang, Zichao Yan,* Jin Xiao, Wenli Xin, Lei Zhang, Huiling Peng, Yaheng Geng, Junwei Li, Yunxiao Wang, Li Liu,* Zhiqiang Zhu.* Boosting cathode activity and anode stability of Zn-S batteries in aqueous media through cosolvent-catalyst synergy. Angew. Chem. Int. Ed., 2022, 61: e202212666.

[24]Lei Zhang, Tianran Zhang,* Wenli Xin, Huiling Peng, Zichao Yan,* ZhiqiangZhu.* Additive engineering for a hydrophilic/zincophilic polymeric layer towards dendrite-free zinc anode. Mater. Today Energy, 2022, 29: 101130.

[25]Zichao Yan, Lingfei Zhao,* Yunxiao Wang, Zhiqiang Zhu,* Shu-Lei Chou.* The future for room-temperature sodium–sulfur batteries: From persisting issues to promising solutions and practical applications. Adv. Funct. Mater. , 2022, 32: 2205622.

[26]Licheng Miao, Renheng Wang,* Wenli Xin, Lei Zhang, Yaheng Geng, Huiling Peng, Zichao Yan, Dongting Jiang, Zhengfang Qian, Zhiqiang Zhu.* Three-functional ether-based co-solvents for suppressing water-induced parasitic reactions in aqueous Zn-ion batteries. Energy Storage Mater., 2022, 49: 445–453.

[27]Zichao Yan, Lingfei Zhao, Yaru Liang, Lei Zhang, Hanwen Liu, Zhiqiang Zhu,* Yunxiao Wang, Shu-Lei Chou.* Two-in-one shell configuration for bimetal selenides toward fast sodium storage within broadened voltage windows. Carbon Energy, 2022, 4: 586–597.

[28]Yaheng Geng, Licheng Miao, Zichao Yan,* Wenli Xin, Lei Zhang, Huiling Peng, Junwei Li, Zhiqiang Zhu.* Super-zincophilic additive induced interphase modulation enables long-life Zn anodes at high current density and areal capacity, J. Mater. Chem. A, 2022, 10: 10132−10138.

[29]Zhiqiang Zhu, Shengkai Cao, Xiang Ge, Shibo Xi, Huarong Xia, Wei Zhang, Zhisheng Lv, Jiaqi Wei, Xiaodong Chen.* Enabling the high-voltage operation of layered ternary oxide cathodes via thermally tailored interphase, Small Methods, 2022, 6: 2100920.

[30]Lei Zhang+ (co-first author), Licheng Miao+ (co-first author), Wenli Xin, Huiling Peng, Zichao Yan, Zhiqiang Zhu.* Engineering zincophilic sites on Zn surface via plant extract additives for dendrite-free Zn anode. Energy Storage Mater., 2022, 44: 408–415.

[31]Wenli Xin, Licheng Miao, Lei Zhang, Huiling Peng, Zichao Yan, Zhiqiang Zhu.* Turning the Byproduct Zn4(OH)6SO4·xH2O into a Uniform Solid Electrolyte Interphase to Stabilize Aqueous Zn Anode, ACS Mater. Lett. , 2021, 3: 1819–1825.

[32]Zichao Yan, Wenli Xin, Zhiqiang Zhu.* Artificial interphase engineering to stabilize aqueous zinc metal anodes. Nanoscale, 2021, 13: 19828–19839. (Invited review for the themed collection: "Nanoscale 2022 Emerging Investigators")

Before HNU

[1]Zhiqiang Zhu, Yuxin Tang, Wan Ru Leow, Huarong Xia, Zhisheng Lv, Jiaqi Wei, Xiang Ge, Shengkai Cao, Yanyan Zhang, Wei Zhang, Hongwei Zhang, Shibo Xi, Yonghua Du,* Xiaodong Chen.* Approaching the lithiation limit of MoS2 while maintaining its layered crystalline structure to improve lithium storage. Angew. Chem. Int. Ed., 2019, 58: 3521−3526.

[2]Zhiqiang Zhu, Shibo Xi, Licheng Miao, Yuxin Tang, Yi Zeng, Huarong Xia, Zhisheng Lv, Wei Zhang, Xiang Ge, Hongwei Zhang, Jiaqi Wei, Shengkai Cao, Jun Chen,* Yonghua Du,* Xiaodong Chen.* Unraveling the Formation of Amorphous MoS2 Nanograins during the Electrochemical Delithiation Process. Adv. Funct. Mater., 2019, 29: 1904843.

[3]Zhiqiang Zhu, Yuxin Tang, Zhisheng Lv, Jiaqi Wei, Yanyan Zhang, Renheng Wang, Wei Zhang, Huarong Xia, Mingzheng Ge, Xiaodong Chen.*Fluoroethylene carbonate enabling robust LiF-rich solid electrolyte interphase to enhance the stability of MoS2 anode for lithium ion storage. Angew. Chem. Int. Ed., 2018,57: 3656−3660. (ESI高被引论文)

[4]Zhiqiang Zhu, Meiling Hong, Dongsheng Guo, Jifu Shi, Zhanliang Tao, Jun Chen.*All-solid-state lithium organic battery with composite polymer electrolyte and pillar[5]quinone cathode. J. Am. Chem. Soc., 2014, 136: 16461−16464. (ESI高被引论文)

[5]Zhiqiang Zhu, Shiwen Wang, Jing Du, Qi Jin, Tianran Zhang, Fangyi Cheng, Jun Chen.* Ultrasmall Sn nanoparticles embedded in nitrogen-doped porous carbon as high-performance anode for lithium-ion batteries. Nano Lett., 2014, 14: 153−157.(ESI高被引论文)

[6]Weiwei Huang+ (co-first author), Zhiqiang Zhu+ (co-first author), Lijiang Wang, Shiwen Wang, Hao Li, Zhanliang Tao, Jifu Shi, Lunhui Guan, Jun Chen.* Quasi-solid-state rechargeable lithium-ion batteries with a calix[4]quinone cathode and gel polymer electrolyte.Angew. Chem. Int. Ed., 2013, 52: 9162–9166.

[7]Zhiqiang Zhu, Xiaodong Chen.* Artificial interphase engineering of electrode materials to improve the overall performance of lithium-ion batteries, Nano Res., 2017, 10: 4115−4138.

[8]Zhiqiang Zhu, Fangyi Cheng, Zhe Hu, Zhiqiang Niu,* Jun Chen.*Highly stable and ultrafast electrode reaction of graphite for sodium ion batteries, J. Power Source, 2015, 293: 626−634.

[9]Zhiqiang Zhu, Hao Li, Jing Liang, Zhanliang Tao, Jun Chen.* Disodium salt of 2,5-dihydroxy-1,4-benzoquinone as anode material for rechargeable sodium ion batteries. Chem. Commun., 2015, 51: 1446–1448.

[10]Zhiqiang Zhu, Jun Chen.* Review—Advanced carbon-supported organic electrode materials for lithium (sodium)-ion batteries, J. Electrochem. Soc., 2015, 162: A2393–A2405.

[11]Zhiqiang Zhu, Dongsheng Guo, Zhanliang Tao, Jun Chen.* Pillar[5]quinone as cathode material for quasi-solid-state rechargeable lithium batteries. SCIENTIA SINICA Chimica, 2014, 44: 1175–1180.

[12]Zhiqiang Zhu, Fangyi Cheng, Jun Chen.* Investigation of effects of carbon coating on the electrochemical performance of Li4Ti5O12/C nanocomposites.J. Mater. Chem. A, 2013, 1: 9484–9490.

奖励与荣誉

[1]中国专利优秀奖(2023年,本人排名6)

[2]天津市专利金奖(2022年,本人排名6)

[3]Nanoscale 2022 Emerging Investigators

[4]高等学校科学研究优秀成果奖(科学技术)自然科学一等奖(2020年,本人排名8)

[5]天津市自然科学一等奖(2016年,本人排名7)

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