个人简介
赵逸,北京化工大学化学学院副教授。主要从事储能电池关键电极材料研究。现承担或者联合申请国家自然科学基金重点研发计划、国家自然科学基金青年项目、国家自然科学基金面上项目、山东省自然科学基金青年项目、博士后面上资助基金、中石油深圳能源研究院横向课题等。目前以第一/通讯作者已在Adv. Mater.,Angew. Chem.,Mater. Horizon,Energy Storage Mater.,Small,Nano Res.,J Mater. Chem. A,ACS Appl. Mater. Inter.等高水平期刊发表SCI论文20余篇,累计影响因子~300。个人网页:https://www.researchgate.net/profile/Yi-Zhao-175
教育经历
| 入学时间 |
毕业时间 |
学位授予单位 |
学历 |
| 2016-09-10 |
2020-01-10 |
北京航空航天大学 |
博士研究生毕业 |
| 2014-09-10 |
2016-07-10 |
北京航空航天大学 |
其他 |
| 2010-09-10 |
2014-07-10 |
燕山大学 |
大学本科毕业 |
工作经历
| 起始年月 |
截止年月 |
所在单位名称 |
| 2020-01-10 |
2022-10-13 |
北京理工大学 |
研究领域
先进二次电池关键材料设计与机制研究;有机物电极材料设计。
本科生课程
| 课程名称 |
开课学年 |
课程总学时 |
选课人数 |
课程性质 |
| 应用软件实践 |
2023 |
+1 |
52 |
实践环节必修 |
| 能源物理化学 |
2023 |
32 |
44 |
专业必修 |
| 能源物理化学 |
2023 |
32 |
|
专业选修 |
| 中级无机化学 |
2023 |
48 |
30 |
专业选修 |
| 能源材料与器件 |
2023 |
16 |
12 |
研讨课-学科交叉 |
纵向项目
- 1. 锂离子电池关键电极材料原位修复与靶向重塑机制研究 ,国家自然科学基金项目,项目时间:2024-01-01 至 2027-12-31
- 2. 水系锌离子电池聚合物插层钒氧化物正极设计及离子传输机制研究 ,国家自然科学基金项目,项目时间:2023-01-01 至 2025-12-31
横向项目
- 1. 废旧高镍三元动力电池关键材料原位修复及靶向重塑机制研究 ,其他课题,项目时间:2024-01-01 至 2025-12-31
- 2. 本质安全水系离子电池技术研究与装备开发 ,其他研究项目,项目时间:2023-08-30 至 2024-09-30
论文信息
[+][-]代表性论文
-
1. DOI
Yan, Qiaoyi,Hu, Zhengqiang,Liu, Zhengzheng,Wu, Feng,赵逸,Chen, Renjie,Li, Li
Synergistic interaction between amphiphilic ion additive groups for stable long-life zinc ion batteries[期刊论文],Energy Storage Materials,2024-03-01
-
2. DOI
王越洋,李琦,李琦,Kovan Khasraw Abdalla,熊嘉伟,赵逸,孙晓明
Design strategies and challenges of next generation aqueous Zn-organic batteries[期刊论文],Next Energy,2023-09-21
-
3. DOI
李琦,赵亚军,王越洋, Abdalla Kovan Khasraw,赵逸,孙晓明
Rational Design of Nanostructured MnO2 Cathode for High-performance Aqueous Zinc Ion Batteries[期刊论文], Chemical Research in Chinese Universities,2023-07-12
-
4. DOI
杨潇,赵逸,徐秋菊,袁相程,刘金章
Unraveling Factors Affecting Performance of Quinone-based Polymer Cathode in Aqueous Zinc-Ion Battery[期刊论文],BATTERIES & SUPERCAPS,2023-03-01
-
5. DOI
夏笑语,赵亚军,赵逸,徐明贵,刘文,孙晓明
Mo doping provokes two electron reaction in MnO2 with ultrahigh capacity for aqueous zinc ion batteries[期刊论文],Nano Research,2023-02-01
[+][-]
2024年
-
1. DOI
Yan, Qiaoyi,Hu, Zhengqiang,Liu, Zhengzheng,Wu, Feng,赵逸,Chen, Renjie,Li, Li
Synergistic interaction between amphiphilic ion additive groups for stable long-life zinc ion batteries[期刊论文],Energy Storage Materials,2024-03-01
-
2. DOI
王越洋,李琦,李琦,Kovan Khasraw Abdalla,熊嘉伟,赵逸,孙晓明
Design strategies and challenges of next generation aqueous Zn-organic batteries[期刊论文],Next Energy,2023-09-21
-
3. DOI
李琦,赵亚军,王越洋, Abdalla Kovan Khasraw,赵逸,孙晓明
Rational Design of Nanostructured MnO2 Cathode for High-performance Aqueous Zinc Ion Batteries[期刊论文], Chemical Research in Chinese Universities,2023-07-12
-
4. DOI
杨潇,赵逸,徐秋菊,袁相程,刘金章
Unraveling Factors Affecting Performance of Quinone-based Polymer Cathode in Aqueous Zinc-Ion Battery[期刊论文],BATTERIES & SUPERCAPS,2023-03-01
-
5. DOI
夏笑语,赵亚军,赵逸,徐明贵,刘文,孙晓明
Mo doping provokes two electron reaction in MnO2 with ultrahigh capacity for aqueous zinc ion batteries[期刊论文],Nano Research,2023-02-01
[+][-]
2023年
-
1. DOI
Yan, Qiaoyi,Hu, Zhengqiang,Liu, Zhengzheng,Wu, Feng,赵逸,Chen, Renjie,Li, Li
Synergistic interaction between amphiphilic ion additive groups for stable long-life zinc ion batteries[期刊论文],Energy Storage Materials,2024-03-01
-
2. DOI
王越洋,李琦,李琦,Kovan Khasraw Abdalla,熊嘉伟,赵逸,孙晓明
Design strategies and challenges of next generation aqueous Zn-organic batteries[期刊论文],Next Energy,2023-09-21
-
3. DOI
李琦,赵亚军,王越洋, Abdalla Kovan Khasraw,赵逸,孙晓明
Rational Design of Nanostructured MnO2 Cathode for High-performance Aqueous Zinc Ion Batteries[期刊论文], Chemical Research in Chinese Universities,2023-07-12
-
4. DOI
杨潇,赵逸,徐秋菊,袁相程,刘金章
Unraveling Factors Affecting Performance of Quinone-based Polymer Cathode in Aqueous Zinc-Ion Battery[期刊论文],BATTERIES & SUPERCAPS,2023-03-01
-
5. DOI
夏笑语,赵亚军,赵逸,徐明贵,刘文,孙晓明
Mo doping provokes two electron reaction in MnO2 with ultrahigh capacity for aqueous zinc ion batteries[期刊论文],Nano Research,2023-02-01
[+][-]2022年
-
1. DOI
Yan, Qiaoyi,Hu, Zhengqiang,Liu, Zhengzheng,Wu, Feng,赵逸,Chen, Renjie,Li, Li
Synergistic interaction between amphiphilic ion additive groups for stable long-life zinc ion batteries[期刊论文],Energy Storage Materials,2024-03-01
-
2. DOI
王越洋,李琦,李琦,Kovan Khasraw Abdalla,熊嘉伟,赵逸,孙晓明
Design strategies and challenges of next generation aqueous Zn-organic batteries[期刊论文],Next Energy,2023-09-21
-
3. DOI
李琦,赵亚军,王越洋, Abdalla Kovan Khasraw,赵逸,孙晓明
Rational Design of Nanostructured MnO2 Cathode for High-performance Aqueous Zinc Ion Batteries[期刊论文], Chemical Research in Chinese Universities,2023-07-12
-
4. DOI
杨潇,赵逸,徐秋菊,袁相程,刘金章
Unraveling Factors Affecting Performance of Quinone-based Polymer Cathode in Aqueous Zinc-Ion Battery[期刊论文],BATTERIES & SUPERCAPS,2023-03-01
-
5. DOI
夏笑语,赵亚军,赵逸,徐明贵,刘文,孙晓明
Mo doping provokes two electron reaction in MnO2 with ultrahigh capacity for aqueous zinc ion batteries[期刊论文],Nano Research,2023-02-01
[+][-]2021年
-
1. DOI
Yan, Qiaoyi,Hu, Zhengqiang,Liu, Zhengzheng,Wu, Feng,赵逸,Chen, Renjie,Li, Li
Synergistic interaction between amphiphilic ion additive groups for stable long-life zinc ion batteries[期刊论文],Energy Storage Materials,2024-03-01
-
2. DOI
王越洋,李琦,李琦,Kovan Khasraw Abdalla,熊嘉伟,赵逸,孙晓明
Design strategies and challenges of next generation aqueous Zn-organic batteries[期刊论文],Next Energy,2023-09-21
-
3. DOI
李琦,赵亚军,王越洋, Abdalla Kovan Khasraw,赵逸,孙晓明
Rational Design of Nanostructured MnO2 Cathode for High-performance Aqueous Zinc Ion Batteries[期刊论文], Chemical Research in Chinese Universities,2023-07-12
-
4. DOI
杨潇,赵逸,徐秋菊,袁相程,刘金章
Unraveling Factors Affecting Performance of Quinone-based Polymer Cathode in Aqueous Zinc-Ion Battery[期刊论文],BATTERIES & SUPERCAPS,2023-03-01
-
5. DOI
夏笑语,赵亚军,赵逸,徐明贵,刘文,孙晓明
Mo doping provokes two electron reaction in MnO2 with ultrahigh capacity for aqueous zinc ion batteries[期刊论文],Nano Research,2023-02-01
[+][-]2020年
-
1. DOI
Yan, Qiaoyi,Hu, Zhengqiang,Liu, Zhengzheng,Wu, Feng,赵逸,Chen, Renjie,Li, Li
Synergistic interaction between amphiphilic ion additive groups for stable long-life zinc ion batteries[期刊论文],Energy Storage Materials,2024-03-01
-
2. DOI
王越洋,李琦,李琦,Kovan Khasraw Abdalla,熊嘉伟,赵逸,孙晓明
Design strategies and challenges of next generation aqueous Zn-organic batteries[期刊论文],Next Energy,2023-09-21
-
3. DOI
李琦,赵亚军,王越洋, Abdalla Kovan Khasraw,赵逸,孙晓明
Rational Design of Nanostructured MnO2 Cathode for High-performance Aqueous Zinc Ion Batteries[期刊论文], Chemical Research in Chinese Universities,2023-07-12
-
4. DOI
杨潇,赵逸,徐秋菊,袁相程,刘金章
Unraveling Factors Affecting Performance of Quinone-based Polymer Cathode in Aqueous Zinc-Ion Battery[期刊论文],BATTERIES & SUPERCAPS,2023-03-01
-
5. DOI
夏笑语,赵亚军,赵逸,徐明贵,刘文,孙晓明
Mo doping provokes two electron reaction in MnO2 with ultrahigh capacity for aqueous zinc ion batteries[期刊论文],Nano Research,2023-02-01
[+][-]2020年之前
-
1. DOI
Yan, Qiaoyi,Hu, Zhengqiang,Liu, Zhengzheng,Wu, Feng,赵逸,Chen, Renjie,Li, Li
Synergistic interaction between amphiphilic ion additive groups for stable long-life zinc ion batteries[期刊论文],Energy Storage Materials,2024-03-01
-
2. DOI
王越洋,李琦,李琦,Kovan Khasraw Abdalla,熊嘉伟,赵逸,孙晓明
Design strategies and challenges of next generation aqueous Zn-organic batteries[期刊论文],Next Energy,2023-09-21
-
3. DOI
李琦,赵亚军,王越洋, Abdalla Kovan Khasraw,赵逸,孙晓明
Rational Design of Nanostructured MnO2 Cathode for High-performance Aqueous Zinc Ion Batteries[期刊论文], Chemical Research in Chinese Universities,2023-07-12
-
4. DOI
杨潇,赵逸,徐秋菊,袁相程,刘金章
Unraveling Factors Affecting Performance of Quinone-based Polymer Cathode in Aqueous Zinc-Ion Battery[期刊论文],BATTERIES & SUPERCAPS,2023-03-01
-
5. DOI
夏笑语,赵亚军,赵逸,徐明贵,刘文,孙晓明
Mo doping provokes two electron reaction in MnO2 with ultrahigh capacity for aqueous zinc ion batteries[期刊论文],Nano Research,2023-02-01
招生信息
招收材料、物理化学和能源化学等相关专业,需要勤奋踏实、性格开朗、乐于沟通、有团队合作精神。
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