1. PI潞脥脩脨戮驴脥脜露脫录貌陆茅
脌卯贸盲拢卢禄陋脰脨驴脝录录麓贸脩搂虏脛脕脧驴脝脩搂脫毛鹿陇鲁脤脩搂脭潞陆脤脢脷拢卢虏漏脢驴脡煤碌录脢娄拢卢虏脛脕脧脦茂脌铆脫毛禄炉脩搂脰脨脨脛脰梅脠脦隆拢脰梅脪陋麓脫脢脗碌莽麓脽禄炉隆垄脰脢脳脫陆禄禄禄脛陇脠录脕脧碌莽鲁脴隆垄虏脛脕脧禄炉脩搂碌脠脕矛脫貌碌脛脩脨戮驴隆拢脠毛脩隆碌脷脢庐露镁脜煤脰脨脳茅虏驴脟脿脛锚脧卯脛驴拢篓脫脜脧脠脳脢脰煤拢漏隆拢2005脛锚脫脷脦盲潞潞麓贸脩搂禄炉脩搂脭潞禄帽碌脙脩搂脢驴脩搂脦禄拢禄2010脛锚脫脷卤卤戮漏麓贸脩搂禄炉脩搂脭潞禄帽碌脙虏漏脢驴脩搂脦禄拢篓碌录脢娄拢潞脡脹脭陋禄陋陆脤脢脷拢漏拢禄2011-2013脛锚脙脌鹿煤脗氓脣鹿掳垄脌颅脛陋脣鹿鹿煤录脪脢碌脩茅脢脪虏漏脢驴潞贸拢篓碌录脢娄拢潞Dr. Piotr Zelenay)拢禄2013-2015脛锚脙脌鹿煤虏录脌脢麓贸脩搂虏漏脢驴潞贸拢篓碌录脢娄拢潞Shouheng Sun陆脤脢脷拢漏拢禄2016脛锚脠芦脰掳禄脴鹿煤鹿陇脳梅隆拢脪脩脭脷SCI脫垄脦脛脝脷驴炉脡脧路垄卤铆脩搂脢玫脗脹脦脛100脫脿脝陋拢卢脝盲脰脨J. Am. Chem. Soc., Angew. Chem. Int. Ed.碌脠脫掳脧矛脪貌脳脫10脪脭脡脧碌脛鹿煤录脢露楼录露脭脫脰戮30脫脿脝陋隆拢脗脹脦脛鹿虏卤禄脪媒脫脙5500脫脿麓脦拢卢H脰赂脢媒脦陋37隆拢15脝陋脦脛脮脗卤禄脝脌脦陋ESI脠脠碌茫潞脥赂脽脪媒脫脙脗脹脦脛隆拢脰梅鲁脰/虏脦脫毛鹿煤录脪脳脭脠禄驴脝脩搂禄霉陆冒脙忙脡脧脧卯脛驴, 鹿煤录脪脰脴碌茫脩脨路垄录脝禄庐隆掳虏脛脕脧禄霉脪貌鹿陇鲁脤鹿脴录眉录录脢玫脫毛脰搂鲁脜脝陆脤篓隆卤脳篓脧卯拢卢潞镁卤卤脢隆录录脢玫麓麓脨脗脳篓脧卯脰脴麓贸脧卯脛驴碌脠露脿赂枚脧卯脛驴隆拢禄陋驴脝虏脛脕脧脩搂驴脝脢么脫脷隆掳脣芦脪禄脕梅隆掳陆篓脡猫脩搂驴脝拢卢脩脨戮驴脥脜露脫脪脌脥脨虏脛脕脧鲁脡脨脦脫毛脛拢戮脽录录脢玫鹿煤录脪脰脴碌茫脢碌脩茅脢脪拢卢脦盲潞潞鹿芒碌莽鹿煤录脪驴脝脩搂脰脨脨脛碌脠脝陆脤篓隆拢脛驴脟掳鹿虏脫脨陆脤脢脷1脠脣拢卢赂卤陆脤脢脷1脠脣拢卢虏漏脢驴潞贸1脠脣拢卢脭脷露脕虏漏脢驴6脠脣拢卢脭脷露脕脣露脢驴7脠脣隆拢脥脜露脫脫毛脙脌鹿煤脗氓脣鹿掳垄脌颅脛陋脣鹿鹿煤录脪脢碌脩茅脢脪拢卢虏录脗鲁驴脣潞拢脦脛鹿煤录脪脢碌脩茅脢脪拢卢脜娄脭录脰脻脕垄麓贸脩搂虏录路篓脗脼路脰脨拢拢卢虏录脌脢麓贸脩搂拢卢录脫脰脻脰脻脕垄麓贸脩搂拢卢潞芦鹿煤脦碌脡陆驴脝脩搂录录脢玫麓贸脩搂拢卢脤篓脥氓驴脝录录麓贸脩搂拢卢脪脭脡芦脕脨掳脥露没脪脕脌录麓贸脩搂碌脠脩脨戮驴禄煤鹿鹿卤拢鲁脰脳脜鲁陇脝脷潞脧脳梅陆禄脕梅鹿脴脧碌隆拢

驴脦脤芒脳茅脥酶脪鲁: https://echem.mat.hust.edu.cn/

麓煤卤铆脨脭脗脹脦脛:
1. Q. Li*, et al., Atomic Arrangement Engineering of Metallic Nanocrystals for Energy-Conversion Electrocatalysis, Joule, 2019, 3, 956.
2. Q. Li*, et al., Sub-6 nm Fully Ordered L10-Pt篓CNi篓CCo Nanoparticles Enhance Oxygen Reduction via Co Doping Induced Ferromagnetism Enhancement and Optimized Surface Strain, Adv. Energy Mater. 2019, 9, 1803771.
3. Q. Li*, et al., NiFe (Oxy) Hydroxides Derived from NiFe Disulfides as an Efficient Oxygen Evolution Catalyst for Rechargeable Zn篓CAir Batteries: The Effect of Surface S Residues, Adv. Mater. 2018, 28, 1800757.
4. Q. Li*, et al., Atomically Dispersed Fe-Nx/C Electrocatalyst Boosts Oxygen Catalysis via a New Metal-Organic Polymer Supramolecule Strategy, Adv. Energy Mater. 2018, 8, 1801226.
5. Q. Li*, et al., Tuning Sn-Catalysis for Electrochemical Reduction of CO2 to CO via the Core/Shell Cu/SnO2 Structure, J. Am. Chem. Soc., 2017, 139, 4290-4293. (ESI脠脠碌茫脗脹脦脛)
6. Q. Li*, et al., Controlled Assembly of Cu Nanoparticles on Pyridinic-N Rich Graphene for Electrochemical Reduction of CO2 to Ethylene, Nano Energy, 2016, 24, 1-9.
7. Q. Li, et al., High-Activity PtRuPd/C Catalyst for Direct Dimethyl Ether Fuel Cell, Angew. Chem. Int. Ed.,2015, 127, 7634-7638.
8. Q. Li, et al., Stable Cobalt Nanoparticles and Their Monolayer Array as an Efficient Electrocatalyst for Oxygen Evolution Reaction, J. Am. Chem. Soc., 2015, 137, 7071-7074.  (ESI highly cited paper)
9. Q. Li, et al., New Approach to Fully Ordered fct-FePt Nanoparticles for Much Enhanced Electrocatalysis in Acid, Nano Lett., 2015, 15, 2468-2473.(ESI highly cited paper)
10. Q. Li, et al., Graphene/Graphene Tube Nanocomposites Templated from Cage-Containing Metal-Organic Frameworks for Oxygen Reduction in Li-O2 Batteries, Adv. Mater., 2014, 26, 1378-1386. (ESI highly cited paper)
11. Q. Li, et al., Nanocarbon Electrocatalysts for Oxygen-Reduction in Alkaline media for Advanced Energy Conversion and Storage, Adv. Energy Mater., 2014, 4, 1301415. (ESI highly cited paper)

2. 驴脦脤芒脳茅脩脨戮驴路陆脧貌
拢篓1拢漏 脰脢脳脫陆禄禄禄脛陇脠录脕脧碌莽鲁脴(PEMFC)/碌莽麓脽禄炉: 鹿媒露脡陆冒脢么-碌陋-脤录(M-N-C)脨脥路脟鹿贸陆冒脢么/碌脥虏卢脛脡脙脳戮搂脩玫脝酶禄鹿脭颅路麓脫娄麓脽禄炉录脕; 脛陇碌莽录芦脡猫录脝拢禄
拢篓2拢漏 CO2禄鹿脭颅潞脥碌莽陆芒脣庐拢篓脟芒脦枚鲁枚潞脥脩玫脦枚鲁枚拢漏拢潞CO2碌莽麓脽禄炉禄鹿脭颅脰脝卤赂禄炉鹿陇脭颅脕脧脧碌脥鲁/脠芦脣庐陆芒麓脽禄炉录脕潞脥脳掳脰脙驴陋路垄拢禄
拢篓3拢漏 茂庐脌毛脳脫/茂庐脕貌碌莽鲁脴鹿脴录眉虏脛脕脧驴陋路垄录掳虏煤脪碌禄炉脩脨戮驴隆拢

3. 脮脨脝赂脪陋脟贸
拢篓1拢漏脭脷碌莽麓脽禄炉隆垄虏脛脕脧潞脧鲁脡隆垄DFT脌铆脗脹录脝脣茫碌脠脕矛脫貌脫脨脧脿鹿脴戮颅脩茅拢卢脪脩戮颅禄帽碌脙禄貌脮脽陆芦脫脷陆眉脝脷禄帽碌脙虏漏脢驴脩搂脦禄拢禄
拢篓2拢漏脠脠掳庐脣录驴录拢卢露脌脕垄鹿陇脳梅脛脺脕娄脟驴拢卢驴脝脩脨麓贸碌篓露酶脧赂脰脗拢卢陆眉脠媒脛锚脪脭碌脷脪禄脳梅脮脽路垄卤铆SCI脗脹脦脛2脝陋脪脭脡脧隆拢

4. 虏漏潞贸麓媒脫枚
禄霉卤戮脛锚脨陆19脥貌脠脣脙帽卤脪+路垄卤铆脗脹脦脛录篓脨搂拢卢脤脴卤冒脫脜脨茫脮脽麓媒脫枚驴脡脙忙脪茅拢禄鹿陇脳梅脫脜脨茫脮脽驴脡脥脝录枚脕么脨拢禄貌碌陆鹿煤脥芒鹿陇脳梅拢禄脧铆脢脺禄陋脰脨驴脝录录麓贸脩搂脥鲁脪禄碌脛脳隆路驴隆垄脳脫脜庐脠毛脩搂隆垄脪陆脕脝碌脠麓媒脫枚隆拢

驴脦脤芒脳茅脠脠脟茅禄露脫颅脛煤碌脛录脫脙脣拢隆脫脨脪芒脮脽脟毛脫脢录镁脕陋脧碌虏垄赂陆录貌脌煤拢潞qing_li@hust.edu.cn 返回小木虫查看更多