职  称:教授
研究方向:有机储能电池
办公电话:
办公地点:唯真楼1521b

个人简历

王恒国,教授,博士生导师,吉林省拔尖创新人才。2011年6月在吉林大学获得有机化学专业博士学位,导师李耀先教授;2011年7月至2013年7月在中科院长春应化所稀土资源利用国家重点实验室开展博士后研究工作,合作导师张新波研究员;2020年5月入职东北师范大学化学学院。主要从事先进可调有机储能电池的基础和应用研究。以第一或通讯作者在Angew. Chem. Int. Ed., Adv. Mater., Energy Environ. Sci., Adv. Energy Mater., Adv. Funct. Mater., Mater. Today, Coordin. Chem. Rev., Energy Storage Mater.等学术期刊上发表论文110余篇,其中ESI高被引论文5篇,论文他引8000余次。作为项目负责人先后主持国家/省部级项目10余项,授权发明专利2项,出版学术专著1部,获吉林省自然科学一等奖(第2名)1项和吉林省自然科学二等奖(第1名)1项。 主要研究方向 1. 网格能源材料在先进有机储能电池中的应用; 2. 锂/钠/钾离子电池、双离子电池、固态电池和水系电池等。 【长期欢迎保送/报考东北师大的研究生联系加入本团队,从事网格能源材料及有机储能电池等方面的相关研究工作】 wanghg061@nenu.edu.cn 1. Junhao Wang, Hongfeng Jia, Zhaoli Liu, Jie Yu, Linqi Cheng, Heng-Guo Wang,* Fengchao Cui, and Guangshan Zhu*, Anchoring π-d Conjugated Metal-Organic Frameworks with Dual-Active Centers on Carbon Nanotubes for Advanced Potassium-Ion Batteries. Advanced Materials, 2024, 36, 2305605. 2. Juan Chu, Zhaoli Liu, Jie Yu, Linqi Cheng, Heng-Guo Wang,* Fengchao Cui,* and Guangshan Zhu*, Boosting H+ Storage in Aqueous Zinc Ion Batteries via Integrating Redox-Active Sites into Hydrogen-Bonded Organic Frameworks with Strong π-π Stacking (Inside Cover). Angewandte Chemie International Edition, 2024, 63, e202314411. 3. Lan Chen, Linqi Cheng, Jie Yu, Juan Chu, Heng-guo Wang,* Fengchao Cui,* and Guangshan Zhu*, Tailored Organic Cathode Material with Multi-Active Site and Compatible Groups for Stable Quasi-Solid-State Lithium-Organic Batteries. Advanced Functional Materials, 2022, 32, 2209848. 4. Shuai Zhao, Zheng Bian, Zhaoli Liu, Yinghui Wang, Fengchao Cui, Heng-guo Wang,* and Guangshan Zhu*, Bottom-Up Construction of Fluorene-Based Porous Aromatic Frameworks for Ultrahigh-Capacity and High-Rate Alkali Metal-Ion Batteries. Advanced Functional Materials, 2022, 32, 2204539. 5. Heng-guo Wang,* Qiong Wu, Linqi Cheng, Guangshan Zhu*, The emerging aqueous zinc-organic battery. Coordination Chemistry Reviews, 2022, 472, 214772. 6. Heng-guo Wang,* Yunong Wang, Qiong Wu, Guangshan Zhu*, Recent developments in electrode materials for dual-ion batteries: Potential alternatives to conventional batteries. Materials Today, 2022, 52, 269. 7. Heng-guo Wang*, Qiong Wu, Linqi Cheng, Lan Chen, Mengfan Li, Guangshan Zhu,* Porphyrin- and phthalocyanine-based systems for rechargeable batteries. Energy Storage Materials, 2022, 52, 495. 8. Heng-guo Wang, Haidong Wang, Zhenjun Si, Qiang Li, Qiong Wu, Qi Shao, Lanlan Wu, Yu Liu, Yinghui Wang, Shuyan Song*, and Hongjie Zhang, A bipolar and self-polymerized phthalocyanine complex for fast and tunable energy storage in dual-ion batteries. Angewandte Chemie International Edition, 2019, 58, 10204. 9. Heng-guo Wang,* Qiang Li, Qiong Wu, Zhenjun Si, Xiaoling Lv, Xitong Liang, Huilin Wang, Lin Sun, Weidong Shi,* and Shuyan Song*, Conjugated Microporous Polymers with Bipolar and Double Redox-Active Centers for High-Performance Dual-Ion, Organic Symmetric Battery. Advanced Energy Materials, 2021, 11, 2100381. 10. Heng-guo Wang, Qiong Wu, Yinghui Wang, Xiao Wang, Lanlan Wu and Shuyan Song*, Hongjie Zhang, Molecular engineering of monodisperse SnO2 nanocrystals anchored on doped graphene with high-performance lithium/sodium-storage properties in half/full cells. Advanced Energy Materials, 2019, 9, 1802993. 11. Heng-Guo Wang, Wang Li, Da-Peng Liu, Xi-Lan Feng, Jin Wang, Xiao-Yang Yang, Xin-bo Zhang, Yujie Zhu*, and Yu Zhang*, Flexible electrodes for sodium-ion batteries: recent progress and perspectives. Advanced Materials, 2017, 29, 1703012. 12. Heng-guo Wang, Shuang Yuan, Zhenjun Si and Xin-bo Zhang*, Multi-ring aromatic carbonyl compounds enabling high capacity and stable performance of sodium-organic batteries, Energy & Environmental Science, 2015, 8, 3160. 13. Hengguo Wang, Shuang Yuan, De-long Ma, Xin-Bo Zhang, and Junmin Yan*, Electrospun materials for lithium and sodium rechargeable batteries: from structure evolution to electrochemical performance, Energy & Environmental Science, 2015, 8, 1660. 14. Hengguo Wang, Shuang Yuan, Delong Ma, Xiaolei Huang, Fanlu Meng, Xinbo Zhang*, Tailored aromatic carbonyl derivative polyimides for high-power and long-cycle sodium-organic batteries, Advanced Energy Materials, 2014, 4, 1301651.

社会兼职

获奖情况 (数据来源:科学技术处、社会科学处)

  • 2021-11-12 吉林省自然科学奖二等奖

教学信息 (数据来源:教务处)

  • 见微知著-纳米世界的科学探索(1)
  • 电池电化学

科研信息 (数据来源:科学技术处、社会科学处)

  • 项目:
  • 1. 固态有机电池的构筑及性能调控研究,省、市、自治区科技项目,2023年
  • 2. 项链状过渡金属硒化物@碳纤维柔性负极的构筑及其在钠离子电池中的应用,国家自然科学基金项目,2023年
  • 3. 金属酞菁基二维导电金属有机框架的构筑及其储钠机理研究,国家自然科学基金项目,2021年
  • 4. 钠离子电池用二维导电金属有机框架的构筑及性能调控研究,省、市、自治区科技项目,2021年
  • 论文:
  • 1. Integrating p-type phenazine into covalent triazine framework to achieve co-storage of cations and anions for quasi-solid-state dual-ion batteries,CHEMICAL ENGINEERING JOURNAL,2024年
  • 2. Ion Pre-Embedding Engineering of δ-MnO2 for Chemically Self-Charging Aqueous Zinc Ions Batteries,SMALL,2023年
  • 3. Salen-based porous aromatic frameworks with multi-active sites as anode materials for lithium-ion batteries,JOURNAL OF COLLOID AND INTERFACE SCIENCE,2023年
  • 4. Immobilizing Quinone-Fused Aza-Phenazine into pi-d Conjugated Coordination Polymers with Multiple-Active Sites for Sodium-Ion Batteries,SMALL,2023年
  • 5. Unraveling the superior anodic lithium storage behavior in the redox-active porphyrinic triazine frameworks,CHEMICAL ENGINEERING JOURNAL,2023年
  • 6. A Three-Dimensional Silicon-Diacetylene Porous Organic Radical Polymer,CCS Chemistry,2023年
  • 7. Integrating multiple redox-active sites and universal electrode-active features into covalent triazine frameworks for organic alkali metal-ion batteries,CHEMICAL ENGINEERING JOURNAL,2023年
  • 8. Integrated pyrazine-based porous aromatic frameworks/carbon nanotube composite as cathode materials for aqueous zinc ion batteries,CHEMICAL ENGINEERING JOURNAL,2022年
  • 9. The emerging aqueous zinc-organic battery,COORDINATION CHEMISTRY REVIEWS,2022年
  • 10. Tailored Organic Cathode Material with Multi-Active Site and Compatible Groups for Stable Quasi-Solid-State Lithium-Organic Batteries,ADVANCED FUNCTIONAL MATERIALS,2022年
  • 11. Bottom-Up Construction of Fluorene-Based Porous Aromatic Frameworks for Ultrahigh-Capacity and High-Rate Alkali Metal-Ion Batteries,ADVANCED FUNCTIONAL MATERIALS,2022年
  • 12. Porphyrin- and phthalocyanine-based systems for rechargeable batteries,Energy Storage Materials,2022年
  • 13. In-situ formation of ultrafine ZnMn2O4-MnOOH composite nanoparticles embedded into porous carbon nanospheres for stable aqueous zinc-ion batteries,APPLIED SURFACE SCIENCE,2022年
  • 14. Conjugated ladder-type polymers with multielectron reactions as high-capacity organic anode materials for lithium-ion batteries,SCIENCE CHINA-MATERIALS,2022年
  • 15. A redox-active metal-organic compound for lithium/sodium-based dual-ion batteries,JOURNAL OF COLLOID AND INTERFACE SCIENCE,2022年
  • 16. Recent developments in electrode materials for dual-ion batteries: Potential alternatives to conventional batteries,MATERIALS TODAY,2022年
  • 17. Hyper-Crosslinked Polymer-Derived Nitrogen-Doped Hierarchical Porous Carbon as Metal-Free Electrocatalysts for High-Efficiency Oxygen Reduction,ENERGY & FUELS,2021年
  • 18. Conjugated microporous polyarylimides immobilization on carbon nanotubes with improved utilization of carbonyls as cathode materials for lithium/sodium-ion batteries,JOURNAL OF COLLOID AND INTERFACE SCIENCE,2021年
  • 19. Facile preparation of N-doped hierarchically porous carbon derived from pitch-based hyper-cross-linked polymers as an efficient metal-free catalyst for oxygen-reduction,APPLIED SURFACE SCIENCE,2021年
  • 20. A bipolar metal phthalocyanine complex for sodium dual-ion battery,JOURNAL OF ENERGY CHEMISTRY,2021年
  • 21. Conjugated Microporous Polymers with Bipolar and Double Redox-Active Centers for High-Performance Dual-Ion, Organic Symmetric Battery,ADVANCED ENERGY MATERIALS,2021年

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