2018年8月14日

黄利宏 – 教授

单位: 素材资料与物质的化学组成科学与技术院物质的化学组成与药学系

以电话传送: +86-28-84078939 (问询处)136 2805 7998 (细胞)

描写: +86-28-84079074

邮寄: hlhcdut@

基本情况:
黄利宏,男,博士,谆谆教诲。1994年6月卒业于四川学会(原成都理工理科会),科学与技术有某种文科知识的人。2006卒业于四川学会。,科学与技术博士。2006年7月迄今,他在成都学会素材资料与物质的化学组成学术界教授。,复职副谆谆教诲、谆谆教诲。从2007到2010,李察 G. Lugar Center for Renewable Energy, Indiana University- Purdue University, Indianapolis, U.S.A.,博士后考虑,四川省人事厅被认定为高。
在工程接,木精水蒸汽改造和木精离开、变压吸附(PSA)污染氢。晚近,在可再生能源资源接打中生物质催化转变制氢及其在燃料电池中适用实地的投掷了大方的考虑任务,并与情况可再生能源资源情况暗室(NREL)协作,记录小 Business Technology Transfer Program (STR)资产,同时,作为规划指导者,他取得了包含T在内的很多补助金。。
考虑成果获省理科二等奖,作为一号作者或对应作者,友爱权衡SCI搜索论文M,作为一号个女发明家,美国受权了1项受权显然。、中国1971发明显然2项显然,乐曲组合很多国际大会,如ACS年会和。
在研进行控告:
情况自然理科基金(21276031),规划指导者。
四川省日本科学和技术厅国际协作进行控告,规划指导者。
四川省教育部门科学与技术攻关进行控告,规划指导者。
四川省教育部门自然理科重点进行控告,规划指导者。
油田地质与开采情况重点暗室吐艳根底工程,规划指导者。
四川年老的教育质量工程(SZH1106CX03),规划指导者。
矿藏物质的化学组成——四川省重点暗室,规划指导者
考虑接:

考虑接:能源资源化学工业界,工业界催化,化学工业界新素材资料。
考虑取向:氢能源资源,生物质可再生能源资源,触媒剂开采,变压吸附吸附的的从事制造。

    可再生能源资源开采,化石能源资源的高效转变与使用,充实适当的时机良机和挑动!迎将渴望科研的青年人才乐曲组合本人的徘徊!无论如何你因为哪里,在这边,在颂扬的试验技艺锻炼和励任务中。,你的关心可以被引起和珍视。,你的潜在的将记录使充分活动。,结出果实也会记录报答。。 Come on!

说课奔流:
大学的奔流:化学工业界规律、物质的化学组成技术、工业界催化、化学工业界设计、物质的化学组成反应工程
考虑生奔流:无活力的素材资料分解技术、触媒剂设计、准备与表征技术
代表著作
Selected Peer reviewed Papers:
1.Zhang FB, Wang N, Yang L, Li M, Huang LH*, Ni–Co bimetallic 菱苦土粉基 catalysts for hydrogen production via steam reforming of acetic acid from bio-oil, International Journal of Hydrogen Energy, in press. ( SCI, IF: )
2.Zhang FB, Li M, Yang L, Ye SZ, Huang LH*, Ni-Mg-Mn-Fe-O catalyst derived from layered double hydroxide for hydrogen production by auto-thermal reforming of ethanol, Catalysis Communications, 2014, 43:6-10. ( SCI, IF: )
3.Huang LH*, Zhou J, Hsu A, Chen RR*, Catalytic partial oxidation of n-butanol for hydrogen production over LDH-derived Ni-based catalysts, International Journal of Hydrogen Energy, 2013, 38:14550-14558. ( SCI, IF: )
4.Ning Wang, Kui Shen, Lihong Huang, Xiaopeng Yu, Weizhong Qian,* and Wei Chu*, Facile Route for Synthesizing Ordered Mesoporous Ni?Ce?Al Oxide Materials and Their Catalytic Performance for Methane Dry Reforming to Hydrogen and Syngas, ACS Catalysis, 2013 (3):1638-1651. (SCI), IF: )
5. Huang LH, Zhang FB, Chen RR, Hsu A, Manganese-promoted nickel/alumina catalysts for hydrogen production via auto-thermal reforming of ethanol, International Journal of Hydrogen Energy,2012, in press. ( SCI, IF: )
6. Huang LH, Zhang FB, Chen RR, Hsu A, Nickel-based perovskite catalysts with iron-doping via self-combustion for hydrogen production in auto-thermal reforming of Ethanol, International Journal of Hydrogen Energy,2012, 37:1272-1279. ( SCI, IF: )
7. Lihong Huang, Qi Liu, Rongrong Chen, Andrew T. Hsu, Hydrogen production via auto-thermal reforming of bio-ethanol: The role of iron in layered double hydroxide-derived Ni0.35Mg2.65AlO4.5±δ catalysts, Applied Catalysis A: General, 393 (2011) 302–308. ( SCI, IF: )
8. Huang LH, Chen RR, Chu D, Hsu A, Hydrogen Production through Auto-Thermal Reforming of Bio-Ethanol over Co-based Catalysts: Effect of Iron in Co/Al2O3 Catalysts, International Journal of Hydrogen Energy,2010, 35:1138-1146. ( SCI, IF: )
9. Huang LH, Liu Q, Chen RR, Chu D, Hsu A, Layered double hydroxide derived Co0.3Mg2.7Al1-xFexO4.5±δ catalysts for hydrogen production via auto-thermal reforming of bio-ethanol, Catalysis Communications, 2010, 12:40-45. (SCI), IF: )
10. Huang LH, Xie J, Chen RR, Chu D, Hsu A, Nanorod 矾土支持物 Ni-Zr-Fe/Al2O3 catalysts for hydrogen production in auto-thermal reforming of ethanol, Materials Research Bulletin, 2010, 45 (1): 92-96. ( SCI, IF: )
11. Huang LH, Xie J, Chen RR, Chu D, Hsu A, Fe Promoted Ni-Ce/Al2O3 in Auto-Thermal Reforming of Ethanol for Hydrogen Production, Catalysis Letters, 2009, 130 (3-4): 432-439. (SCI), IF: )
12. Huang LH, Xie J, Chu W, Chen RR, Chu D, Hsu A, Iron-promoted nickel-based catalysts for hydrogen generation via auto-thermal reforming of ethanol, Catalysis Communications, 2009, 10(5): 502-508. (SCI), IF: )
13. Huang LH, Xie J, Chen RR, Chu W, Chu D, Hsu A, Effect of iron on durability of nickel-based catalysts in auto-thermal reforming of ethanol for hydrogen production, International Journal of Hydrogen Energy, 2008, 33(24):7448-7456. ( SCI, IF: )

 
Selected Meeting Presentations
1.Lihong Huang, Jie Zhou, Junsong Guo, Rongrong Chen,Catalytic oxidation of bio-butanol for hydrogen production, The 2014 Fuel Cell Seminar & Energy Exposition, October 21-24, 2014, Columbus, Ohio, 美国。
2.Zhang FB, Li M, Yang L, Huang LH*, Bi-metals catalysts for auto-thermal reforming of bio-oil for hydrogen production, The fifth World Hydrogen Technologies Convention (WHTC) 2013), September 26-28, 2013, Shanghai, 中国1971。
3. Lihong Huang, Jian Xie, Rongrong Chen, Deryn Chu, Andrew Hsu, Auto-thermal reforming of bio-ethanol for hydrogen production over 钴基 catalysts, the 第三十六 Northeast Regional Meeting of American Chemistry Society, October 7-10, 2009, Hartford, Connecticut, USA
4. Lihong Huang, Jian Xie, Rongrong Chen, Deryn Chu, Andrew Hsu, Improved Durability of Iron Promoted Non-Precious Metal Catalysts for Hydrogen Generation through Bio-ethanol Reforming, ECS Transactions, Volume 16, Issue 2, pp. 523- 531.
5. Huang L., Chen R., Chu D., Xie J., and Hsu, A.T., Ni-Fe binary metal catalysts for hydrogen production via auto-thermal reforming of ethanol, AIChE National Meeting 2009, Tampa, Florida, 美国。 , April 26-30, 2009
6. Lihong Huang, Jian Xie, Rongrong Chen, Deryn Chu, Andrew T. Hsu, A Study of Non-Precious Metal Catalysts for Auto-Thermal Reforming of Ethanol, 2008 Fuel Cell Seminar & Exposition, Phoenix, Arizona, 美国。, October 27-30, 2008.
7. L. Huang, J. Xie, R. Chen, D. Chu and A. Hsu, Study on Iron Promoted Non-Precious Metal Catalysts for Oxidative Reforming of Ethanol, 214th ECS Meeting, Honolulu, Hawaii, USA, October 12 – October 17, 2008.
8. L. H. Huang, J. Li, J. D. Liu, et al., Study on copper-cobalt-based catalysts promoted by plasma for higher alcohols synthesis, 233rd National Meeting of American Chemical Society, Chicago, March 2007.
发明显然:
1. 美国显然: Lihong Huang; Jian Xie, Iron promoted nickel based catalysts for hydrogen generation via auto-thermal reforming of 酒精。 Patent number: US7888283B2 杏月如月 15, 2011 受权)
2. 中国1971显然:黄利宏,镍基酒精自热改造制氢触媒剂,受权显然号:。
3. 中国1971显然:黄利宏,酒精自热氧化还原滴定法准备钙钛矿型触媒剂,受权显然号:。
首要奖赏:
2008四川科学与技术进步奖二等奖。储伟、黄利宏等;辉光催化分解触媒剂和分解气触媒剂的考虑。

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