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畫。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計畫、科技部國家重點研發計畫、中美雙邊科技合作項目等多項國家和省部級科研項目。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。
基本介紹
- 中文名:劉琦
- 出生地:山西省興縣
- 學位/學歷:博士
- 職業:教師
- 專業方向:新型綠色二次電池、先進能源儲存材料
- 職務:研究員/博導
- 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
- 工作單位:北京理工大學
人物經歷,研究方向,教學工作,主要成就,代表性學術論文,
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。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。
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慧型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,電極/電解質界面電化學機制及其複合改性。
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》。
主要成就
入選2018年國家博士後創新人才支持計畫,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計畫、863計畫、科技部國家重點研發計畫、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。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。
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] 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] 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] 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] 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] 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] 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] 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] 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] 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] 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.
[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.
[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.
[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.
[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.
