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雷盛
(華中科技大學博士研究生)
鎖定
- 中文名
- 雷盛
- 外文名
- Sheng Lei
- 國 籍
- 中國
雷盛人物經歷
雷盛主要成績
1、Lei S, Zeng Z, Liu M, et al. Balanced Solvation/De-solvation of Electrolyte Facilitates Li-ion Intercalation for Fast Charging and Low-temperature Li-ion Batteries[J]. Nano Energy, 2022: 107265.
[11]
2、Lei S, Zeng Z, Hui Y, et al. Nonpolar Cosolvent Driving LUMO Energy Evolution of Methyl Acetate Electrolyte to Afford Lithium-Ion Batteries Operating at −60 °C[J]. Advanced Functional Materials, 2023, 2301028.
[18]
3、Lei S, Zeng Z, Wu Y, et al. Non-coordinating flame retardants with varied vapor pressures enabling biphasic fire-extinguishing electrolyte for high safety lithium-ion batteries[J]. Chemical Engineering Journal, 2023, 463: 142181.
[17]
4、Lei S, Dong Y, Dou Y, et al. Polymerization-tailored polyimides as cathodes for lithium-ion batteries[J]. Materials Advances, 2021, 2(17): 5785-5790.
[10]
5、Lei S, Cui X, Liu X, et al. Hydrothermally self-templated synthesis of rectangular polyimide submicrotubes and promising potentials in electrochemical energy storage[J]. Chemical Communications, 2020, 56(9): 1429-1432.
[9]
6、Lei S, Liu X, Zhang X, et al. One-Pot hydrothermal approach to graphene/Poly (3, 4-ethylenedioxythiophene) composites for high-capacitance supercapacitors[J]. Materials Today Communications, 2019, 20: 100549.
[8]
7、Lei S, Lu Y, Zhang X, et al. A molecular engineering approach to pore-adjustable nanoporous carbons with narrow distribution for high-performance supercapacitors[J]. Chemical Communications, 2019, 55(16): 2305-2308.
[7]
8、Cui X, Lei S, Wang A C, et al. Emerging covalent organic frameworks tailored materials for electrocatalysis[J]. Nano Energy, 2020, 70: 104525.
[6]
9、Lei S, Zeng Z, Wu Y, et al. Cosolvent Engineered Phosphaphenanthrene-Based Self-Extinguishing Electrolyte for Safer Lithium-Ion Batteries[J]. ACS Applied Energy Materials, 2022, 5(9): 10465-10472.
[16]
10、Lei S, Zeng Z,Jia X. Fast-charging of lithium-ion batteries: A review of electrolyte design aspects.Battery Energy, doi:10.1002/bte2.20230018.
[20]
11、Lei S, Zeng Z, Liu, M, et al. Nonflammable cosolvent enables methyl acetate-based electrolyte for 4.6 V-class lithium-ion batteries operating at −60 °C[J]. Chemical Engineering Journal, 2023, 478: 147180.
[21]
雷盛所獲榮譽
1、中南民族大學2020年優秀碩士畢業論文
[1]
;中南民族大學
- 參考資料
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- 1. 中南民族大學2020年優秀學位論文名單公示-中南民族大學研究生院 .中南民族大學研究生院[引用日期2022-03-20]
- 2. 2020年材料學院博士研究生“申請考核制”綜合能力考核結果公示-華中科技大學材料科學與工程學院 .華中科技大學材料科學與工程學院[引用日期2022-03-20]
- 3. Research .ResearchGate[引用日期2022-03-20]
- 4. 中南民族大學研究生招生信息網2017年新入學碩士研究生生源獎學金獲獎名單公示 .中南民族大學研究生招生信息網[引用日期2022-04-05]
- 5. 雷盛 2020-華中科技大學電能存儲與轉換研究課題組 .華中科技大學電能存儲與轉換研究課題組[引用日期2022-04-05]
- 6. Emerging Covalent Organic Frameworks Tailored Materials for Electrocatalysis .sciencedirect[引用日期2022-05-09]
- 7. A molecular engineering approach to pore-adjustable nanoporous carbons with narrow distribution for high-performance supercapacitors .RSC[引用日期2022-05-09]
- 8. One-Pot hydrothermal approach to graphene/Poly (3, 4-ethylenedioxythiophene) composites for high-capacitance supercapacitors .sciencedirect[引用日期2022-05-09]
- 9. Hydrothermally self-templated synthesis of rectangular polyimide submicrotubes and promising potentials in electrochemical energy storage .RSC[引用日期2022-05-09]
- 10. Polymerization-tailored polyimides as cathodes for lithium-ion batteries .RSC[引用日期2022-05-09]
- 11. Balanced Solvation/De-solvation of Electrolyte Facilitates Li-ion Intercalation for Fast Charging and Low-temperature Li-ion Batteries .sciencedirect[引用日期2022-05-09]
- 12. 獲獎公佈 .獎學金[引用日期2022-06-03]
- 13. 省一等獎.獲獎證明.公開 由詞條本人提供[引用日期2023-05-12]
- 14. 國家獎學金.獲獎證明.公開 由詞條本人提供[引用日期2023-05-12]
- 15. 研究生標兵.獲獎證明.公開 由詞條本人提供[引用日期2023-05-12]
- 16. Cosolvent Engineered Phosphaphenanthrene-Based Self-Extinguishing Electrolyte for Safer Lithium-Ion Batteries .ACS Publications[引用日期2023-05-11]
- 17. Non-coordinating flame retardants with varied vapor pressures enabling biphasic fire-extinguishing electrolyte for high safety lithium-ion batteries .sciencedirect[引用日期2023-05-11]
- 18. Nonpolar Cosolvent Driving LUMO Energy Evolution of Methyl Acetate Electrolyte to Afford Lithium-Ion Batteries Operating at −60 °C .Wiley Online Library[引用日期2023-05-15]
- 19. 獲獎證書.獲獎證明.公開 由詞條本人提供[引用日期2023-05-15]
- 20. Fast-charging of lithium-ion batteries: A review of electrolyte design aspects .Wiley Online Library[引用日期2023-08-11]
- 21. Nonflammable cosolvent enables methyl acetate-based electrolyte for 4.6 V-class lithium-ion batteries operating at −60 °C .sciencedirect[引用日期2023-12-09]
- 22. 祝賀課題組團隊雷盛等成員榮獲工信部“第二屆全國先進儲能技術創新挑戰賽”技術創意一等獎! .華中科技大學電能存儲與轉換研究課題組[引用日期2024-03-02]
- 23. 祝賀課題組團隊雷盛等成員榮獲“第一屆能源電子產業創新大賽總決賽”銅獎! .華中科技大學電能存儲與轉換研究課題組[引用日期2024-03-02]
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