反饋

劉琦

（北京理工大學特別研究員，博士生導師）

劉琦，男，博士，北京理工大學特別研究員，博士生導師。入選國家博士後創新人才支持計劃。主要從事新型綠色二次電池及先進能源儲存材料的研究；包括鋰離子電池、鈉離子電池和金屬鋰電池及其關鍵材料研究開發。在Journal of the Electrochemical Society、Physical Chemistry Chemical Physics、Energy Storage Materials、Chinese Physics B、Journal of Physical Chemistry C、ChemSusChem等國內外期刊發表SCI收錄論文多篇。作為項目負責人承擔國家自然科學基金青年項目、中國博士後科學基金面上一等資助等國家級科研項目；作為項目骨幹參與國家973計劃、科技部國家重點研發計劃、中美雙邊科技合作項目等多項國家和省部級科研項目^[1] 。作為骨幹參與編寫《電力儲能用鋰離子電池簇測試規範》及《移動式電化學儲能用鋰離子電池》中國電工技術學會標準兩項。^[18]

中文名: 劉琦^[1]
出生地: 山西省興縣^[12]
學位/學歷: 博士^[1]
職業: 教師
專業方向: 新型綠色二次電池、先進能源儲存材料^[1]

職務: 研究員/博導^[1]
學術代表作: Journal of the Electrochemical Society、Physical Chemistry Chemical Physics、Energy Storage Materials、Chinese Physics B、Journal of Physical Chemistry C^[12]
工作單位: 北京理工大學^[1]

劉琦人物經歷

2012年9月-2018年3月，碩博連讀，於2018年3月獲得工學博士學位^[1] 。2018年3月-2020年4月，師從北京理工大學吳鋒院士，在材料科學與工程博士後流動站從事博士後研究工作。2020年4月入職北京理工大學材料學院，現任北京理工大學特別研究員，博士生導師^[1] 。

劉琦研究方向

基於新能源汽車動力電池、太陽能光伏發電和風力發電儲能以及智能電網建設大規模儲能需求，師從北京理工大學吳鋒院士，主要從事新型綠色二次電池及先進能源儲存材料的研究；主要包括鋰離子電池、鈉離子電池和金屬鋰電池及其關鍵材料研究開發；重點研究二次電池容量衰減機制及性能調控^[18] ，電極/電解質界面電化學機制及其複合改性^[1] 。

劉琦教學工作

作為主講教師講授本科生專業基礎核心課程《物理化學》以及《國際視野下的新能源材料與器件》，參與講授兩門本科生課程《先進電池大講壇》、《能源與環境材料學科進展》。^[18]

劉琦主要成就

入選2018年國家博士後創新人才支持計劃，作為項目負責人承擔國家自然科學基金青年項目、中國博士後科學基金面上一等資助項目；作為項目骨幹參與國家973計劃、863計劃、科技部國家重點研發計劃、國家自然科學基金、科技部中美雙邊科技合作項目、北京市自然科學基金等多項國家和省部級科研項目。自2014年以來，在Journal of Physical Chemistry C、Physical Chemistry Chemical Physics、Journal of the Electrochemical Society、ChemSusChem、Energy Storage Materials、Chinese Physics B、Electrochimica Acta和ACS Applied Energy Materials等國內外學術期刊發表SCI收錄論文20餘篇，申請國家發明專利7項^[1] 。作為骨幹參與起草編寫《電力儲能用鋰離子電池簇測試規範》及《移動式電化學儲能用鋰離子電池》中國電工技術學會標準兩項。^[18]

劉琦代表性學術論文

[1] Liu Qi, Wu Feng*, Mu Daobin*, Wu Borong. Theory Study on Na+ Solvation in Carbonate Ester and Ether Solvents for Sodium Ion Battery[J]. Physical Chemistry Chemical Physics, 2020, 22, 2164-2175^[2] .

[2] Liu Qi, Wu Feng*, Mu Daobin*, Wu Borong. Comparative Calculation on Li+ Solvation in Common Organic Electrolyte Solvents for Lithium Ion Batteries[J]. Chinese Physics B, 2020, 29 (4), 048202^[3] .

[3] Liu Qi, Xu Hongliang, Wu Feng, Mu Daobin*, Shi Lili, Wang Lei, Bi Jiaying, Wu Borong. Effects of a High-Concentration LiPF6-Based Carbonate Ester Electrolyte for the Electrochemical Performance of a High-Voltage Layered LiNi0.6Co0.2Mn0.2O2 Cathode[J]. ACS Applied Energy Materials, 2019, 2(12): 8878-8884^[4] .

[4] Liu Qi, Cresce Arthur, Schroeder Marshall, Xu Kang*, Mu Daobin*, Wu Borong*, Shi Lili, Wu Feng. Insight on lithium metal anode interphasial chemistry: Reduction mechanism of cyclic ether solvent and SEI film formation[J]. Energy Storage Materials, 2019, 17: 366-373^[5] .

[5] Liu Qi, Mu Daobin, Wu Borong, Wang Lei, Gai Liang, Wu Feng. Density Functional Theory Research into the Reduction Mechanism for the Solvent/Additive in a Sodium‐Ion Battery[J]. ChemSusChem, 2017, 10(4): 786-796^[6] .

[6] Liu Qi, Mu Daobin, Wu Borong, Xu Hongliang, Wang Lei, Gai Liang, Shi Lili, Wu Feng. Theoretical studies the reduction of cyclic esters on the anode interface of lithium batteries[J]. Journal of The Electrochemical Society, 2017, 164(13): A3144-A3153^[7] .

[7] Wu Borong, Liu Qi, Mu Daobin, Ren Yonghuan Li Yu, Wang Lei, Xu Hongliang, Wu Feng. New Desolvated Gel Electrolyte for Rechargeable Lithium Metal Sulfurized Polyacrylonitrile (S-Pan) Battery[J]. The Journal of Physical Chemistry C, 2014, 118, 28369-28376^[8] .

[8] Wu Borong, Bi Jiaying, Liu Qi*, Mu Daobin*, Wang Lei, Fu Jiale, Wu Feng. Role of current density in the degradation of LiNi0.6Co0.2Mn0.2O2 cathode material[J]. Electrochimica Acta, 2019, 298: 609-615^[9] .

[9] Liu Qi, Zhao Zhikun, Wu Feng, Mu Daobin*, Wang Lei, Wu Borong*. The effects of molybdenum doping on LiNi0.6Co0.2Mn0.2O2 cathode material[J]. Solid State Ionics, 2019, 337: 107-114^[10] .

[10] Qi Liu(劉琦)*, Guoqiang Tan(譚國強), Feng Wu(吳鋒), Daobin Mu(穆道斌), and Borong Wu(吳伯榮). DFT study of solvation of Li+/Na+ in fluoroethylene carbonate/vinylene carbonate/ethylene sulfite solvents for lithium/sodium-based battery[J]. Chinese Physics B, 2021, 30(3): 038203^[11] .

[11] Ling Zhang, Qi Liu, Yuxin Wang, Chunling Xu, Jiaying Bi, Daobin Mu, Borong Wu Feng Wu. Modifying γ-MnO2 to enhance the electrochemical performance of lithium-sulfur batteries.Chemical Engineering Journal 421 (2021) 129782.^[13]

[12] Liu Qi, Mu Daobin*, Wu Borong*, Wang Lei, Gai Liang, Wu Feng. Insight on lithium polysulfide intermediates in a Li/S battery by density functional theory. RSC Advances, 7,33373-33377.^[14]

[13] Wu Borong, Liu Qi, Mu Daobin, Xu Hongliang, Wang Lei, Shi Lili, Gai Liang, Wu Feng. Suppression of lithium dendrite growth by introducing a low reduction potential complex cation in the electrolyte. RSC Advances, 6, 51738-51746.^[15]

[14] Teng Xin, Xu Hongliang, Liu Qi, Gai Liang, Wang Lei, Shi Lili，Yang Yusheng，Wu Feng. Influence of Conductive Additives on Performance of SiO/C Lithium-ion Battery. New Carbon Materials. 32, 1-9.^[16]

[15] Jiang Ying，Chen Shi，Mu Daobin， Wu Borong，Liu Qi，Zhao Zhikun，Wu Feng. A three-dimensional network structure Si/C anode for Li-ion batteries. Journal of Materials Science, 52, 10950-10958.^[17]

參考資料

1. 劉琦．北京理工大學材料學院[引用日期2020-06-07]
2. A theoretical study on Na+ solvation in carbonate ester and ether solvents for sodium-ion batteries ．Physical Chemistry Chemical Physics[引用日期2020-06-07]
3. Comparative calculation on Li+ solvation in common organic electrolyte solvents for lithium ion batteries ．中國物理B[引用日期2020-06-07]
4. Effects of a High-Concentration LiPF6-Based Carbonate Ester Electrolyte for the Electrochemical Performance of a High-Voltage Layered LiNi0.6Co0.2Mn0.2O2 Cathode ．ACS Applied Energy Materials[引用日期2020-06-07]
5. Insight on lithium metal anode interphasial chemistry: Reduction mechanism of cyclic ether solvent and SEI film formation ．Energy Storage Materials[引用日期2020-06-07]
6. Density Functional Theory Research into the Reduction Mechanism for the Solvent/Additive in a Sodium‐Ion Battery ．ChemSusChem[引用日期2020-06-07]
7. Theoretical studies the reduction of cyclic esters on the anode interface of lithium batteries ．ResearchGate[引用日期2020-06-07]
8. New Desolvated Gel Electrolyte for Rechargeable Lithium Metal Sulfurized Polyacrylonitrile (S-Pan) Battery ．The Journal of Physical Chemistry C[引用日期2020-06-07]
9. Role of current density in the degradation of LiNi0.6Co0.2Mn0.2O2 cathode material - ScienceDirect ．Electrochimica Acta[引用日期2020-06-07]
10. The effects of molybdenum doping on LiNi0.6Co0.2Mn0.2O2 cathode material - ScienceDirect ．Solid State Ionics[引用日期2020-06-07]
11. DFT study of solvation of Li + /Na + in fluoroethylene carbonate/vinylene carbonate/ethylene sulfite solvents for lithium/sodium-based battery ．中國物理B[引用日期2021-03-30]
12. 北京理工大學材料學院劉琦．北京理工大學材料學院[引用日期2021-05-11]
13. Modifying γ-MnO 2 to Enhance the Electrochemical Performance of Lithium-sulfur Batteries - 百度學術．百度學術[引用日期2021-05-11]
14. Insight on lithium polysulfide intermediates in a Li/S battery by density functional theory - 百度學術．百度學術[引用日期2021-05-11]
15. Suppression of lithium dendrite growth by introducing a low reduction potential complex cation in the electrolyte - 百度學術．百度學術[引用日期2021-05-11]
16. The influence of conductive additives on the performance of a SiO/C composite anode in lithium-ion batteries | New Carbon Materials | onAcademic ．onAcademic[引用日期2021-05-11]
17. A three-dimensional network structure Si/C anode for Li-ion batteries - 百度學術．百度學術[引用日期2021-05-11]
18. 材料學院．北京理工大學材料學院[引用日期2022-01-07]

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編輯次數：5次歷史版本
最近更新： lq100002 （2022-01-09）

1 人物經歷
2 研究方向
3 教學工作
4 主要成就
5 代表性學術論文

劉琦