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Guanglei Cui

2020-03-17Edit:admin
Name:
Guanglei Cui
Sex:
man
Job:
Professor
Education:
PhD
Phone:
80662746
Fax:

Email:
cuigl@qibebt.ac.cn
Address:
No.189 Songling Road, Laoshan District, Qingdao


Biography 
Professor Guanglei Cui obtained his Ph.D. degree at Institute of Chemistry, CAS, in 2005. From 2005 to 2009, he had worked at Max-Planck-Institute for Polymer Research and Max-Planck-Institute for Solid State research as a postdoctoral scientist on Ener. Chem. Project. Then he joined in the Qingdao Institute of Bioenergy and Bioprocess Technology, CAS as full professor from 2009. He is the leading scientist of the National Key R&D Program (high energy density solid state lithium batteries technology) and the state council special allowance expert, He is the Taishan Scholars of Shandong Province in 2015, the National Science Fund for Distinguished Young Scholars in 2016, Young and middle-aged leading scientists, engineers and innovators in 2018, Ten Thousand Talent Program in 2019.
He is the director of the Academic degrees Committee and the vice-director of the Academic Committee of the Qingdao Institute of Bioenergy and Bioprocess Technology, the executive director of the Qingdao Industrial Energy Storage Research Institute, and the director of Qingdao Key Lab of Solar Energy Utilization and Energy Storage Technology. He is the member of the International Polymer Electrolytes Committee, Chinese society of electrochemistry, and Chinese society of Solid State Ionics.
His research interests are low-cost and highly efficient energy-storage and conversion devices. He has published 260 papers on peer-reviewed journals of Angew. Chem. Int. Ed.、J. Am. Chem. Soc.、Adv. Mater.、Adv. Energy Mater.、Energy Environ. Sci.、Coordin. Chem. Rev.、Prog. Polym. Sci., most of which have been indexed by SCI. All the papers have been other-cited by more than 10000 times.
Research Interests 
Electrochemical energy storage and conversion material 
Selected Publications 
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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