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崔光磊

2020-03-18编辑:admin
姓 名:
崔光磊
性 别:
职 称:
研究员
学 历:
博士
电 话:

传 真:
0532-80662744
电子邮件:
cuigl@qibebt.ac.cn
通讯地址:
青岛市崂山区松岭路189号

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简历:
崔光磊,研究员,博士生导师,国家新能源汽车专项高比能固态锂电池技术项目首席科学家,国家人才计划,科技部中青年科技创新领军人才,国家杰出青年科学基金获得者,国务院特殊津贴专家。获得山东省自然科学一等奖、青岛市自然科学一等奖等奖项。2005年于中国科学院化学所获得有机化学博士学位,2005年9月至2009年先后在德国马普协会高分子所和固态所从事博士后研究。2009年2月到中科院青岛生物能源与过程所工作,现任中科院青岛能源所学位委员会主任、学术委员会副主任,青岛储能产业技术研究院执行院长、能源应用技术研究室主任,国际聚合物电解质委员会理事、国际储能创新联盟理事、中国化学会电化学委员会委员、中国化学会有机固体专业委员会委员等。近几年主要从事高比能固态电池关键材料和系统研发、深海特种电源开发应用及固态光电转换器件的研究工作。先后在能源材料、化学、器件等方面的国际权威杂志Nat. Commun.、Angew. Chem. Int. Ed.、Adv. Mater.、Environ. Energy Science、Adv. Energy Mater.、Adv. Funct. Mater.、J. Am. Chem. Soc.、Adv. Sci.等发表文章260多篇,他引10000多次。
研究方向:

能源化学

专家类别:

研究员;国家新能源汽车专项固态电池项目首席科学家;国家自然科学基金“杰出青年”基金获得者;国务院特殊津贴专家

职务:
中科院青岛能源所学位委员会主任、学术委员会副主任,青岛储能产业技术研究院执行院长、能源应用技术研究室主任,国际聚合物电解质委员会理事、国际储能创新联盟理事、中国化学会电化学委员会理事、中国化学会有机固体专业委员会理事

获奖及荣誉:
国家自然科学杰出青年、山东省泰山学者特聘专家、山东省杰出青年、青岛市创业创新领军人才、第八届青岛市青年科技奖

代表论著:
1.     "A Temperature-Responsive Electrolyte Endowing Superior Safety Characteristic of Lithium Metal Batteries", ZHOU Q., DONG S., LV Z., XU G., HUANG L., WANG Q., CUI Z., CUI G., Advanced Energy Materials, 2020, 10 (6): 1903441.
2.     "Formulierung von Elektrolyten mit gemischten Lithiumsalzen für Lithium-Batterien", XU G., SHANGGUAN X., DONG S., ZHOU X., CUI G., Angewandte Chemie, 2020, 132 (9): 3426-3442.
3.     "A Stable Solid Electrolyte Interphase for Magnesium Metal Anode Evolved from a Bulky Anion Lithium Salt", TANG K., DU A., DONG S., CUI Z., LIU X., LU C., ZHAO J., ZHOU X., CUI G., Advanced Materials, 2020, 32 (6): 1904987.
4.     "Long-life and deeply rechargeable aqueous Zn anodes enabled by a multifunctional brightener-inspired interphase", ZHAO Z., ZHAO J., HU Z., LI J., LI J., ZHANG Y., WANG C., CUI G., Energy & Environmental Science, 2019, 12 (6): 1938-1949.
5.     "A biomass based free radical scavenger binder endowing a compatible cathode interface for 5 V lithium-ion batteries", MA Y., CHEN K., MA J., XU G., DONG S., CHEN B., LI J., CHEN Z., ZHOU X., CUI G., Energy & Environmental Science, 2019, 12 (1): 273-280.
6.     "An In Situ Interface Reinforcement Strategy Achieving Long Cycle Performance of Dual-Ion Batteries", HAN X., XU G., ZHANG Z., DU X., HAN P., ZHOU X., CUI G., CHEN L., Advanced Energy Materials, 2019, 9 (16): 1804022.
7.     "A Crosslinked Polytetrahydrofuran-Borate-Based Polymer Electrolyte Enabling Wide-Working-Temperature-Range Rechargeable Magnesium Batteries", DU A., ZHANG H., ZHANG Z., ZHAO J., CUI Z., ZHAO Y., DONG S., WANG L., ZHOU X., CUI G., Advanced Materials, 2019, 31 (11): e1805930.
8.     "Fluorescence Probing of Active Lithium Distribution in Lithium Metal Anodes", CHENG X., XIAN F., HU Z., WANG C., DU X., ZHANG H., CHEN S., DONG S., CUI G., Angewandte Chemie International Edition, 2019, 58 (18): 5936-5940.
9.     "A Scalable Methylamine Gas Healing Strategy for High-Efficiency Inorganic Perovskite Solar Cells", SHAO Z., WANG Z., LI Z., FAN Y., MENG H., LIU R., WANG Y., HAGFELDT A., CUI G., PANG S., Angewandte Chemie, International Edition in English, 2019, 58 (17): 5587-5591.
10.   "Self-Established Rapid Magnesiation/De-Magnesiation Pathways in Binary Selenium-Copper Mixtures with Significantly Enhanced Mg-Ion Storage Reversibility", ZHANG Z., CHEN B., XU H., CUI Z., DONG S., DU A., MA J., WANG Q., ZHOU X., CUI G., Advanced Functional Materials, 2018, 28 (1): 1701718.
11.   "Prescribing Functional Additives for Treating the Poor Performances of High‐Voltage (5 V‐class) LiNi0.5Mn1.5O4/MCMB Li‐Ion Batteries", XU G., PANG C., CHEN B., MA J., WANG X., CHAI J., WANG Q., AN W., ZHOU X., CUI G., CHEN L., Advanced Energy Materials, 2018, 8 (9): 1701398.
12.   "Reviving lithium cobalt oxide-based lithium secondary batteries-toward a higher energy density", WANG L., CHEN B., MA J., CUI G., CHEN L., Chemical Society Reviews, 2018, 47 (17): 6505-6602.
13.   "Lithium Ion Capacitors in Organic Electrolyte System: Scientific Problems, Material Development, and Key Technologies", HAN P., XU G., HAN X., ZHAO J., ZHOU X., CUI G., Advanced Energy Materials, 2018, 8 (26): 1801243.
14.   "Novel design concepts of efficient Mg-ion electrolytes toward high-performance magnesium-selenium and magnesium-sulfur batteries", ZHANG Z., CUI Z., QIAO L., GUAN J., XU H., WANG X., HU P., DU H., LI S., ZHOU X., DONG S., LIU Z., CUI G*., CHEN L., Advanced Energy Materials, 2017, 7: 1602055.
15.   "Transformative evolution of organolead triiodide perovskite thin films from strong room-temperature solid-gas interaction between HPbI3-CH3NH2 precursor pair", PANG S., ZHOU Y., WANG Z., YANG M., KRAUSE A. R., ZHOU Z., ZHU K., PADTURE N. P. CUI G*., Journal of the American Chemical Society, 2016, 138: 750.
16.   "Recent advances in non-aqueous electrolyte for rechargeable Li-O2 batteries", LI Y., WANG X., DONG S*., CHEN X., CUI G*., Advanced Energy Materials, 2016, 6 (18): 1600751.
17.   “Safety-reinforced poly(propylene carbonate)-based all-solid-state polymer electrolyte for ambient-temperature solid polymer lithium batteries”, ZHANG J., ZHAO J., YUE L., WANG Q., CHAI J., LIU Z., ZHOU X., LI H., GUO Y., CUI G*., CHEN L., Advanced Energy Materials, 2015, 1501082. 
18.   “Methylamine-gas-induced defect-healing behavior of CH3NH3PbI3 thin films for perovskite solar cells”, ZHOU Z., WANG Z., ZHOU Y., PANG S., WANG D., XU H., LIU Z., PADTURE N. P., CUI G*., Angewandte Chemie International Edition, 2015, 54: 9705. 
19.   “Biomass-derived materials for electrochemical energy storages”, ZHANG L., LIU Z., CUI G*., CHEN L., Progress in Polymer Science, 2015, 43: 136. 
20.   “Functional lithium borate salts and their potential application in high performance lithium batteries”, LIU Z., CHAI J., XU G., WANG Q., CUI G*., Coordination Chemistry Reviews, 2015, 292: 56. 
21.    “Reproducible one-step fabrication of compact MAPbI3–xClxThin films derived from mixed-lead-halide precursors”, WANG D., LIU Z., ZHOU Z., ZHU H., ZHOU Y., HUANG C., WANG Z., XU H., JIN Y., FAN B., PANG S., CUI G*., Chemistry of Materials, 2014, 26: 7145. 
22.   “Graphene oxide nanosheets/multi-walled carbon nanotubes hybrid as an excellent electrocatalytic material towards VO2+/VO2+ redox couples for vanadium redox flow batteries”, HAN P., YUE Y., LIU Z., XU W., ZHANG L., XU H.,DONG S.,CUI G*., Energy & Environmental Science, 2011, 4: 4710.
23. “One dimensional MnO2/titanium nitride nanotube coaxial arrays for high performance electrochemical capacitive energy storage”, DONG S., CHEN X., GU L., ZHOU X., LI  L., LIU Z., HAN P., XU H., YAO J., WANG H., ZHANG X., SHANG C., CUI G*., CHEN, L., Energy & Environmental Science, 2011, 4: 3502. 
                    

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