个人简历

崔立峰

教授、博导
环境与低碳科学研究中心主任教育与工作经历
2013.06至今：上海理工大学环境与建筑学院，教授
2011.06-2013.05：Amazon，资深电池系统工程师
2010.06-2011.05：Clean Cell International, Inc.，资深研究员
2007.08-2010.05：斯坦福大学材料科学与工程系，博士后研究员
2001.09-2007.05：华盛顿州立大学材料科学系/ 美国太平洋西北国家实验室-环境分子科学实验室，硕博连读研究生
获得荣誉
所做的纳米碳管集流极研究被《纽约时报》和《科学美国》报道，2010
所做同轴纳米硅线锂电池负极材料的研究被《麻省理工技术回顾》报道， 2009
所做纳米硅线锂电池负极材料的研究被《科学》报道， 2009
铅原子团簇的论文被选为《物理化学杂志》的封面，2005
研究生院知名学者奖，华盛顿州立大学，2003年
研究生院知名学者奖，华盛顿州立大学，2002年

研究领域

环保二次电池、微生物燃料电池等绿色能源科技、生物质垃圾的热化学催化分解及资源化利用、环境毒理学"1.环境催化、新型环保材料
2.CO2捕获及资源化利用
3.生物质垃圾的热化学催化分解及资源化利用
4.环保二次电池、微生物燃料电池等绿色能源科技"

近期论文

1.“General synthesis ofmagnetic mesoporous FeNi/graphitic carbon nanocomposites and their applicationfor dye adsorption”, Y. Wang, M. Yao, Y. Chen, Y. Zuo, X. Zhang, and L. Cui*, J. Alloy. Compd., 627, 7-12(2015)．
2.“Synthesis of Ti-dopedgraphitic carbon nitride with improved photocatalytic activity under visiblelight”，Y.Wang, Y. Wang, Y. Chen, C. Yin, Y. Zuo, and L. Cui*, Materials Letters, 139, 70-72, (2015).
3.“Preferential carbonmonoxide oxidation on Ag/Al-SBA-15 catalysts: Effect of the Si/Al ratio” X.Zhang, H. Dong, Z. Gu, G. Wang, Y. Zuo, Y. Wang, and L. Cui*, Chemical Engineering Journal, 269, 94-104, (2015).
4.“Simple synthesis ofordered cubic mesoporous graphitic carbon nitride by chemical vapor depositionmethod using melamine”, Y. Wang, F. Wang; Y. Zuo, X. Zhang, and L. Cui*, Materials Letters, 136,271-273, (2014).
5. “Enhanced photocatalytic performance ofordered mesoporous Fe-doped CeO2 catalysts for the reduction of CO2with H2O under simulated solar irradiation”Y.Wang, F. Wang, Y. Chen, D. Zhang, B. Li, S. Kang, X. Li, and L. F. Cui*, Appl.Catal. B: Environ., 147, 602（2014）
6.“Hierarchicallymesostructured TiO2/graphitic carbon composite as a new efficientphotocatalyst for the reduction of CO2 under simulated solarirradiation” Y. Wang, F. Wang, Y. Chen, J. Yao, B. Li, S.Kang, X. Li and L.F. Cui*, Catal. Sci. Technol., 3, 3286 (2013)
“Ordered mesoporous CeO2-TiO2 composites: Highly efficient photocatalysts for the reduction of CO2 with H2O under simulated solar irradiation” Y. Wang, B. Li, C. Zhang, L.F. Cui, S. Kang, X. Li, L. Zhou, Appl. Catal. B: Environ. 130, 277-284 (2013)
“InorganicGlue Enabling High Performance of Silicon Particles as Lithium IonBattery Anode”, L.F. Cui, L. Hu, F. L. Mantia, and Yi Cui, J. of the Electrochem. Soc., 158, A592 (2011)
“LiMn1-xFexPO4 Nanorods Grown on Graphene Sheets for Ultrahigh-Rate-Performance Lithium Ion Batteries” H. Wang, Y. Yang, Y. Liang, L. F. Cui, H. S. Casalongue, Y. Li, G. Hong, Y. Cui, and H. Dai, Angew. Chem. Int.Ed., 50, 7364-7368 (2011)
“A microfluidic positioning chamber for long-term live-cell imaging”,L. Hanson, L. F. Cui, C. Xie, and B. Cui, Microscopy Research and Technique, 74, 496（2011）
“Si nanoparticle-decorated Si nanowire networks for Li-ion battery anodes”, Chemical Communications, L. Hu, L.F. Cui, H. Wu, and Y. Cui 47, 367 (2011)
“Light-Weight Free-Standing Carbon Nanotube-Silicon Films for Anodes of Lithium Ion Batteries” L. F. Cui, L. Hu, J. W. Choi and Y. Cui,ACS Nano 4, 3671 (2010)
“Mn3O4−Graphene Hybrid as a High-Capacity Anode Material for Lithium Ion Batteries”, L.F. Cui, H. Wang, S. Casalongue, Y. Cui, and H. Dai, J. Am. Chem. Soc.,132, 13978 (2010)
“Metal current collector-free freestanding silicon-carbon 1D nanocomposites for ultralight anodes in lithium ion batteries”, J. Choi, L. Hu., L.F. Cui, and Y. Cui, J. of Power Sources, 195,8311 (2010)
“Stretchable, Porous, and Conductive Energy Textiles”, L. Hu, M. Pasta, F.L. Mantia, L.F. Cui, S. Jeong, H. Dawn Deshazer, and Y. Cui, Nano Lett. 10, 708 (2010)
“Crystalline-Amorphous Core-Shell Silicon Nanowires for High Capacity and High Current Battery Electrodes”, L. F. Cui, C. K. Chan, R. Ruffo, H. Peng, and Y. Cui Nano Lett., 9, 491-495 (2009)
“Carbon-Silicon Core-Shell Nanowires as High Capacity Electrode for Lithium ion Batteries ”, L. F. Cui, Y. Yang, C. M. Hsu, and Y. Cui, Nano Lett. 9, 3370 (2009) (Reported by ScienceNOW and MIT Technology Review)
“Highly Conductive Paperfor Energy Storage Devices” L. Hu, J. W. Choi, Y. Yang, L. F. Cui, S. Jeong, F. L. Mantia, and Yi Cui, Proc. Natl. Acad. Sci. USA, 106, 21490 (2009) (Reportedby New York Times and Scientific America)
“Stable Icosahedral Hollow Cage Clusters: Stannaspherene (Sn122–) and Plumbaspherene (Pb122–)”, L. F. Cui and L. S. Wang, Int. Rev. Phys. Chem. 27, 139-166 (2008)
“Probing the Electronic and Structural Properties of Doped Aluminum Clusters: MAl12- (M = Li, Cu, and Au)” R. Pal, L. F. Cui, S. Bulusu, H. J. Zhai, L. S. Wang, and X. C. Zeng J. Chem. Phys. 128, 024305-1-8 (2008)
“Endohedral Stannaspherenes (M@Sn12-): A Rich Class of Stable Molecular Cage Clusters”, L. F. Cui, X. Huang, L. M. Wang, J. Li, and L. S. Wang, Angew. Chem. Int.Ed., 46, 742-745 (2007)
“Photoelectron Spectroscopic and Computational Studies of Sodium Auride Clusters NanAun- (n = 1–3)”, L. F. Cui, X. Li, L. S. Wang, Y. C. Lin, and D. Sundholm, J. Phys. Chem. A, 111, 7555-7561 (2007)
“Evolution of electronic properties of Snn- (n = 4 – 45) clusters by photoelectron spectroscopy”, L. F. Cui, L. M. Wang, and L. S. Wang, J. Chem. Phys., 126, 064505 (2007)
“Sn122-: Stannaspherene”, L. F. Cui, X. Huang, L. M. Wang, D. Y. Zubarev, A. I. Boldyrev, J. Li, and L. S. Wang, J. Am. Chem. Soc. , 128, 8390-8391 (2006)
“Pb122-: Plumbaspherene”, L. F. Cui, X. Huang, L. M. Wang, J. Li, and L. S. Wang, J.Phys. Chem. A,110, 10169-10172 (2006) (Featured on cover)
“Photoelectron Spectroscopy of AlnD2- (n = 3-15): Observation of Chemisorption and Physisorption of Di-Deuterium on Aluminum Cluster Anions”, L. F. Cui, X. Li, and L. S. Wang, J. Chem. Phys., 124, 054308-1-5 (2006)
“On the Structure and Chemical Bonding of Si62- and Si62- in NaSi6- upon Na+ Coordination”, D. Y. Zubarev, A. N. Alexandrova, A. I. Boldyrev, L. F. Cui, X. Li, and L. S. Wang, J. Chem. Phys., 124, 124305-1-13 (2006)
“Experimental and Computational Studies of Alkali-Metal Coinage-Metal Clusters”, Y. C. Lin, D. Sundholm, J, Juselius, L. F. Cui, X. Li, H. J. Zhai and L. S. Wang, J. Phys. Chem. A, 110, 4244-4250 (2006)
“Structural Evolution of Anionic Silicon Clusters Sin (20 ≤ n ≤ 45)”, J. Bai, L. F. Cui, J. Wang, S. Yoo, X. Li, J. Jellinek, C. Koehler, T. Frauenheim, L. S. Wang and X. C. Zeng, J. Phys. Chem. A, 110, 908-912 (2006)
“Magnetic Properties in Transition-Metal-Doped Gold Clusters: M@Au6 (M = Ti , V , Cr)”, X. Li, B. Kiran, L. F. Cui, and L. S. Wang, Phys. Rev. Lett. 95, 253401, 1-4 (2005)
“Chemical Bonding in Si52- and NaSi5- via Photoelectron Spectroscopy and ab Initio Calculations”, D. Yu. Zubarev, A. I. Boldyrev, X. Li, L. F. Cui and L. S. Wang, J. Phys. Chem. A, 109, 11385-11394 (2005)
“Electronic and Structural Evolution and Chemical Bonding in Ditungsten Oxide Clusters:W2On- and W2On (n= 1-6)”, H. J. Zhai, X. Huang, L. F. Cui, X. Li, J. Li, and L. S. Wang, J. Phys. Chem. A, 109, 6019-6030 (2005)
“Electronic Structure and Chemical Bonding in MOn- and MOn Clusters (M = Mo, W; n = 3-5): A Photoelectron Spectroscopy and Ab Initio Study”, H. J. Zhai, B. Kiran, L. F. Cui, X Li, D. A. Dixon, and L. S. Wang, J. Am. Chem. Soc.,126, 16134-16141 (2004)
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