职  称:副教授
研究方向:先进电池材料
办公电话:0431-85096112
办公地点:惟真楼826

个人简历

郭晋芝,理学博士,副教授,硕士生导师,博士后创新人才支持计划获得者、吉林省高层次人才。主要从事电池储能相关材料的研究工作,提出晶格调控提升聚阴离子型正极材料储能性能的策略,包括阴阳离子调控和异质共生复合等,阐明了提升机制,开发了系列高性能正极材料;相关结果以一作/通讯作者身份发表SCI论文27篇,包括《Adv. Mater.》、《Mater. Today》、《Adv. Energy Mater.》、《Energy Storage Mater.》和《Adv. Funct. Mater.》等国际学术期刊;担任多个国际期刊审稿人;申请/授权发明专利5项。主持国家自然科学基金,吉林省科技厅项目,中国博士后科学基金等多个课题,作为骨干人员参与国家重点研发计划战略性科技创新合作重点专项、国家自然科学基金委重大研究计划等研究课题。近年来,多次在国内外学术会议上做邀请/口头报告。曾获得吉林省自然科学奖二等奖(排名第二)、博士论文先后被评为吉林省优秀博士学位论文和中国颗粒学会优秀博士学位论文。 欢迎保送/报考“材料科学与工程”专业的同学加入我们团队,联系方式:guojz065@nenu.edu.cn 【教育及工作经历】 2009.09-2013.06 广西大学 化学与化工学院,化学,学士 2013.09-2019.06 东北师范大学 化学学院,物理化学,博士 2019.07-2021.12 东北师范大学 物理学院,博士后 2022.01-至今 东北师范大学 物理学院,副教授 【本科/研究生教学】 材料制备方法 功能材料导论 大学物理实验 【培养学生的获奖情况】 3. 郝则霖(2022级硕):2023年优秀研究生;党务工作先进个人; 2. 刘奕彤(2021级硕):2023年硕士国家奖学金,2023年优秀研究生; 1. 杜苗(2020级硕):2022年硕士国家奖学金;

社会兼职

获奖情况 (数据来源:科学技术处、社会科学处)

  • 2022-08-01 中国颗粒学会优秀博士学位论文奖
  • 2022-11-28 吉林省科学技术奖自然科学奖二等奖

教学信息 (数据来源:教务处)

科研信息 (数据来源:科学技术处、社会科学处)

  • 项目:
  • 1. 异质共生策略制备钠电铁基聚阴离子型复合正极材料的研究,省、市、自治区科技项目,2023年
  • 2. 第十三届吉林省研究生科技论文演讲比赛—决赛,其他课题,2022年
  • 3. 高熵策略调控钠电磷酸盐正极复合材料的设计制备与性能提升机制研究,国家自然科学基金项目,2021年
  • 4. 基于可再生棉布的柔性钠离子全电池的构筑与性能研究,其他课题,2021年
  • 论文:
  • 1. Two-dimensional conjugated coordination polymer monolayer as anode material for lithium-ion batteries: A DFT study,CHINESE CHEM LETT,2024年
  • 2. Advanced K3V2(PO4)2O2F cathode for rechargeable potassium-ion batteries with high energy density,APPLIED PHYSICS LETTERS,2024年
  • 3. Dynamic Li+ Capture through Ligand-Chain Interaction for the Regeneration of Depleted LiFePO4 Cathode,ADVANCED MATERIALS,2024年
  • 4. Self-purification and silicon-rich interphase achieves high-temperature (70°C) sodium-ion batteries with nonflammable electrolyte,Energy Storage Materials,2024年
  • 5. Hybrid Binder Chemistry with Hydrogen-Bond Helix for High-Voltage Cathode of Sodium-Ion Batteries,JOURNAL OF THE AMERICAN CHEMICAL SOCIETY,2024年
  • 6. Solvent-Free Ultrafast Construction of Se-Deficient Heterojunctions of Bimetallic Selenides Toward Flexible Sodium-Ion Full Batteries,ADVANCED MATERIALS,2024年
  • 7. Progress on Entropy Production Engineering for Electrochemical Catalysis,ACTA PHYS-CHIM SIN,2024年
  • 8. Direct and rapid regeneration of spent LiFePO4 cathodes via a high-temperature shock strategy,JOURNAL OF POWER SOURCES,2023年
  • 9. Constructing Bidirectional Fluorine-Rich Electrode/Electrolyte Interphase Via Solvent Redistribution toward Long-Term Sodium Battery,ENERGY & ENVIRONMENTAL MATERIALS,2023年
  • 10. Pearl-Structure-Enhanced NASICON Cathode toward Ultrastable Sodium-Ion Batteries,ADVANCED SCIENCE,2023年
  • 11. Emerging characterization techniques for delving polyanion-type cathode materials of sodium-ion batteries,MATERIALS TODAY,2023年
  • 12. Two-dimensional MXene with multidimensional carbonaceous matrix: A platform for general-purpose functional materials,PROG MATER SCI,2023年
  • 13. Mn-Rich Phosphate Cathode for Sodium-Ion Batteries: Anion-Regulated Solid Solution Behavior and Long-Term Cycle Life,ADVANCED FUNCTIONAL MATERIALS,2023年
  • 14. Direct reuse of LiFePO4 cathode materials from spent lithium-ion batteries: extracting Li from brine,CHINESE CHEM LETT,2023年
  • 15. Direct reuse of oxide scrap from retired lithium-ion batteries: advanced cathode materials for sodium-ion batteries,RARE METALS,2023年
  • 16. Nanodesigns for Na3V2(PO4)3-based cathode in sodium-ion batteries: a topical review,NANOTECHNOLOGY,2023年
  • 17. Tubular SbPS4-xSex (0≤x≤3) Clusters as High-Performance Anode Materials for Sodium-Ion Batteries,JOURNAL OF ELECTRONIC MATERIALS,2023年
  • 18. Nano self-assembly of fluorophosphate cathode induced by surface energy evolution towards high-rate and stable sodium-ion batteries,Nano Research ,2023年
  • 19. Advances and Challenges on Recycling the Electrode and Electrolyte Materials in Spent Lithium-Ion Batteries,Materials Lab,2022年
  • 20. Heterogeneous NASICON-Type Composite as Low-Cost, High-Performance Cathode for Sodium-Ion Batteries,ADVANCED FUNCTIONAL MATERIALS,2022年
  • 21. Advanced Lithium Primary Batteries: Key Materials, Research Progresses and Challenges,CHEMICAL RECORD,2022年
  • 22. Advanced flame-retardant electrolyte for highly stabilized K-ion storage in graphite anode,SCIENCE BULLETIN,2022年
  • 23. Enhanced Electrode Kinetics and Properties via Anionic Regulation in Polyanionic Na3+xV2(PO4)3-x(P2O7)x Cathode Material,GREEN ENERGY & ENVIRONMENT,2022年
  • 24. Enabling high-performance all-solid-state hybrid-ion batteries with a PEO-based electrolyte,CHEMICAL COMMUNICATIONS,2022年
  • 25. Research progress on the surface/interface modification of high-voltage lithium oxide cathode materials,Energy Materials,2022年
  • 26. All-Climate and Ultrastable Dual-Ion Batteries with Long Life Achieved via Synergistic Enhancement of Cathode and Anode Interfaces,ADVANCED FUNCTIONAL MATERIALS,2022年
  • 27. Advanced polyanionic electrode materials for potassium-ion batteries: Progresses, challenges and application prospects,MATERIALS TODAY,2022年
  • 28. An Advanced High-Entropy Fluorophosphate Cathode for Sodium-ion Batteries with Increased Working Voltage and Energy Density,ADVANCED MATERIALS,2022年
  • 29. An advanced cathode composite for co-utilization of cations and anions in lithium batteries,J MATER SCI TECHNOL,2022年
  • 30. Flexible quasi-solid-state sodium-ion full battery with ultralong cycle life, high energy density and high-rate capability,Nano Research ,2022年
  • 31. Air/water/temperature-stable cathode for all-climate sodium-ion batteries,Cell Reports Physical Science,2021年
  • 32. Ether-based electrolyte chemistry towards high-voltage and long-life Na-ion full batteries,ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2021年
  • 33. Dual anionic substitution engineering for an advanced NASICON phosphate cathode in sodium-ion batteries,MATERIALS CHEMISTRY FRONTIERS,2021年
  • 34. Aliovalent-Ion-Induced Lattice Regulation Based on Charge Balance Theory: Advanced Fluorophosphate Cathode for Sodium-Ion Full Batteries,SMALL,2021年
  • 35. 钠离子电池硫酸盐正极材料的研究进展,分子科学学报,2021年
  • 36. Enhanced electrode kinetics and electrochemical properties of low-cost NaFe2PO4(SO4)2 via Ca2+ doping as cathode material for sodium-ion batteries,J MATER SCI TECHNOL,2021年
  • 37. High-ionicity fluorophosphate lattice via aliovalent substitution as advanced cathode materials in sodium-ion batteries,InfoMat,2021年
  • 38. Na3V2(PO4)3@C用作水系锌离子电池正极材料的研究,储能科学与技术,2021年
  • 39. 水系锌离子电池用钒基正极材料的研究进展,ACTA PHYS-CHIM SIN,2021年
  • 40. High-Rate and Long-Cycle Cathode for Sodium-Ion Batteries: Enhanced Electrode Stability and Kinetics via Binder Adjustment,ACS APPLIED MATERIALS & INTERFACES,2020年
  • 41. 以废旧锰酸锂正极为原料制备Li0.25Na0.6MnO2钠离子电池正极材料的研究,储能科学与技术,2020年
  • 42. Robust three-dimensional carbon conductive network in a NaVPO4F cathode used for superior high-rate and ultralong-lifespan sodium-ion full batteries,JOURNAL OF MATERIALS CHEMISTRY A,2020年
  • 43. Regulation of Cathode-Electrolyte Interphase via Electrolyte Additives in Lithium Ion Batteries,CHEMISTRY-AN ASIAN JOURNAL,2020年
  • 44. Temperature-Dependent Electrochemical Properties and Electrode Kinetics of Na3V2(PO4)2O2F Cathode for Sodium-Ion Batteries with High Energy Density,CHEM-EUR J,2020年
  • 45. 3D Carbon Networks Constructed NaVPO4F/C/rGO as a Cathode Material for High-Performance Sodium-Ion Batteries,FRONTIERS IN ENERGY RESEARCH,2020年
  • 46. Flexible Na/K-Ion Full Batteries from the Renewable Cotton Cloth-Derived Stable, Low-Cost, and Binder-Free Anode and Cathode,ADVANCED ENERGY MATERIALS,2019年
  • 47. Recycled LiMn2O4 from the spent lithium ion batteries as cathode material for sodium ion batteries: Electrochemical properties, structural evolution and electrode kinetics,ELECTROCHIM ACTA,2019年
  • 专利:
  • 一种利用废旧磷酸铁锂电池得到的复合正极材料及其方法和应用 2024-04-26
  • 一类混合锂/钠离子电池 2020-04-21
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