袁艳
博士生导师
硕士生导师
教师姓名:袁艳
教师拼音名称:Yuan Yan
所在单位:冶金工程学院
学历:博士研究生
性别:女
学位:博士学位
职称:教授
在职信息:在职
毕业院校:中南大学
所属院系:冶金工程学院
学科:冶金工程
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论文成果
- 袁艳,常林卿,易大伟,刘朦,王佩椿,罗树亮,张志云,卢海.Synergetic effect of block and catalysis on polysulfides by functionalized bilayer modification on the separator for lithium-sulfur batteries:Energy Materials,2024
- 袁艳,王佩椿,马一添,刘朦,常林卿,凤睿,罗树亮,张志云,汪异.In situ-fabricated quasi-solid polymer electrolytes incorporating an ionic liquid for flexible supercapacitors:Sustainable Energy Fuels,2023
- 袁艳,马一添,卢海,柳絮宜,董新怡,孔雅馨,刘欢.Stabilizing the Bilateral Interfaces by a PVDF-Based Double-Layer Solid Composite Electrolyte with a Relieved Dehydrofluorination Effect for Solid-State Lithium Metal Batteries:ACS Applied Materials & Interfaces,2024
- 袁艳,马一添,罗树亮,张志远,汪异,刘朦,张新龙,常林卿,王佩椿.Catalytic Effect of Ammonium Thiosulfate as a Bifunctional Electrolyte Additive for Regulating Redox Kinetics in Lithium−Sulfur Batteries by Altering the Reaction Pathway:ACS Applied Materials & Interfaces,2024
- 袁艳,卢海,孔雅馨,彭秀平,张磊,李泽堉.Cathode-supported solid polymer electrolyte with solvate ionic liquid and polysulfide modification for rechargeable lithium metal batteries:Sustainable Energy Fuels,2025
- 袁艳,张金浩,郑斌,Stanislav S. Fedotov,卢海,孔龙,王斌.Computational understanding and multiscale simulation of secondary batteries:Energy Storage Materials,2025
- 袁艳,卢海,李正乾,孔雅馨.High-Sulfur-Loading Gel Cathode Employing a Self-Supporting Composite Matrix for Lithium-Polysulfide Batteries:Energy Technology,2024
- 袁艳,雷妍,马一添,曾富宝,张新龙,刘朦,罗树亮,汪异.4-fluorophenylboronic anhydride as an impurity-scavenging agent and two-sided interface modifier for high-performance lithium ion batteries:Chemical Engineering Journal,2024
- .Stabilizing the Bilateral Interfaces by a PVDF-Based Double-Layer Solid Composite Electrolyte with a Relieved Dehydrofluorination Effect for Solid-State Lithium Metal Batteries:ACS Applied Materials & Interfaces,2024,16(43):59547-59555
- 袁艳,卢海,马一添,柳絮宜,薛可思,孔雅馨,王斌,刘欢,李聪,李泽堉.Gradient-integrated bilayer solid polymer electrolyte enabling enhanced room-temperature cyclability for rechargeable lithium metal batteries:Sustainable Energy & Fuels,2024
