教育背景
2002/09 – 2007/06,山東大學,化學與化工學院,博士
1998/09 – 2002/06,山東大學,化學與化工學院,學士
科研教學經歷
2015/06-今 南開大學環境科學與工程學院,博士生導師
2014/12-今 南開大學環境科學與工程學院,教授
2013/01-2014/02 訪問學者, University of Notre Dame,USA
2009/12-2014/12 南開大學環境科學與工程學院,副教授
2007/07-2009/12 南開大學環境科學與工程學院,講師
學術與社會任職
[2] International Journal of Environmental Pollution and Solutions,編委
[3] International Journal of Green Technology,編委
[4] 天津市生態環保行動促進會,常務理事
[5] 中國石油和化學工業聯合會生物化工與生物質能源專業委員會,委員
科研項目
[1] 石墨烯改性納米磁晶對有機污染物及致病微生物協同修復和機制研究,國家自然科學基金(批準號:21377061);
[2] 可編織納米纖維SCR催化劑制備及低溫超高效脫除NOx關鍵技術及應用,天津市科技支撐重點項目(批準號: 13ZCZDSF00300);
[3] 南水北調來水及受水區痕量致病微生物的高效去除研究,天津市自然科學基金重點項目(批準號: 15JCZDJC41200);
[4] Fe3O4納米磁晶脫除水中5-氯酚的效能研究,天津市自然科學基金(批準號: 12JCQNJC05800);
[5] 石墨烯功能改性納米磁晶對水體復合污染的協同生態修復研究,南開大學亞洲研究中心項目(批準號: AS1326);
[6] Fe3O4/TiO2核殼納米纖維吸附脫除水中氯酚類化合物的分子機理研究,國家自然科學基金(批準號:20907022);
[7] 鈦基納米纖維可見光催化脫除室內典型VOCs的基礎研究,教育部博士點基金(批準號:200800551003);
[8] 鈦基納米材料在環境分析控制中的應用研究,科技部“863”項目子課題(批準號:2006AA06Z424).
代表性學術論著:
[1] Interfacial nano-biosensing in microfluidic droplets for high-sensitivity detection of low-solubility molecules, Chemical Communications, 2016, in press.
[2] Enhanced disinfection application of Ag-modified g-C3N4 composite under visible light, Applied Catalysis B: Environmental, 2016, 186: 77-87.
[3] Superior antibacterial activity of Fe3O4-TiO2 nanosheets under solar light, ACS Applied Materials & Interfaces, 2015, 7(39): 21875-21883.
[4] NH3-SCR performance Improvement of mesoporous Sn modified Cr-MnOx catalysts at low temperatures, Catalysis Today, 2015, 258(1): 103-111.
[5] Highly efficient antibacterial and Pb(II) removing effects of Ag-CoFe2O4-GO nanocomposite. ACS Applied Materials & Interfaces, 2015, 7: 10576-10586.
[6] Energy-saving removal of methyl orange in high salinity wastewater by electrochemical oxidation via a novel Ti/SnO2-Sb anode-Air diffusion cathode system, Catalysis Today, 2015, 258(1): 156-161.
[7] Highly efficient removal of NO with ordered mesoporous manganese oxide at low temperature, RSC Advances, 2015, 5: 29353-29361.
[8] Highly efficient removal of pathogenic bacteria with magnetic graphene composite. ACS Applied Materials & Interfaces, 2015, 7(7): 4290-4298.
[9] Facile Preparation of Ordered Mesoporous MnCo2O4 for Low-temperature Selective Catalytic Reduction of NO with NH3. Nanoscale, 2015, 7: 2568-2577.
[10] Low-temperature selective catalytic reduction of NO with NH3 over ordered mesoporous MnxCo3-xO4 catalyst. Catalysis Communications, 2015, 62: 107-111.
[11] Li Y. Facile preparation of MnO2 doped Fe2O3 hollow nanofibers for low temperature SCR of NO with NH3. Journal of Materials Chemistry A, 2014, 2: 20486-20493.
[12] Coaxial-electrospun magnetic core-shell Fe@TiSi nanofibers for the rapid purification of typical dye wastewater. ACS Applied Materials & Interfaces, 2014, 6 (19): 16841-16850.
[[13] Efficient removal of pathogenic bacteria and viruses by multifunctional amine-modified magnetic nanoparticles. Journal of Hazardous Materials, 2014, 274: 115-123.
[14] Rapid degradation of toxic toluene using novel mesoporous SiO2 doped TiO2 nanofibers, Catalysis Today, 2014, 225: 10-17.
[15] In-Situ Studies of Nanocatalysis. Accounts of Chemical Research, 2013, 46(8): 13-1739.
[16] In situ surface chemistries and catalytic performances of ceria doped with palladium, platinum, and rhodium in methane partial oxidation for the production of syngas. ACS Catalysis, 2013, 3 (11), 2627-2639.
[17] Great application prospect in vivo: efficient electroformation of giant vesicles on novel carbon fiber microelectrode. Electrochemistry Communications, 2012, 25: 151-154.
[18] Mesoporous Fe2O3 doped TiO2 nanostructured fibers with higher photocatalytic activity. Journal of Colloid and Interface Science, 2011, 355(2): 328-333.
[19] Catalytic hydrolysis of lignocellulosic biomass into 5-hydroxymethylfurfural in ionic liquid. Bioresource Technology, 2011, 102(5): 4179-4183.
[20] The effects of temperature and catalysts on the pyrolysis of industrial wastes (herb residue). Bioresource Technology, 2010, 101(8): 3236-3241.
[21] New observation of near-reversible behaviors for the [Fe(CN)6]3-/4- redox couple in vesicular solution. Journal of Electroanalytical Chemistry, 2009, 632: 162-169.
[22] Co-electrospun SiO2 hollow nanostructured fibers with hierachical walls. Journal of Colloid Interface Science, 2008, 318(2): 331-336.
[23] Mesoporous TiO2/SiO2 composite nanofibers with selective photocatalytic properties. Chemical Communication, 2007, 2043-2045.
[24] Long TiO2 hollow fibers with mesoporous walls: sol-gel combined electrospun fabrication and photocatalytic properties. Journal of Physical Chemistry B, 2006, 110(213): 11199-11204.
[25] Facile fabrication of long α-Fe2O3, α-Fe and γ-Fe2O3 hollow fibers using sol-gel combined co-electrospinning technology, Journal of Colloid Interface Science, 2007, 308(1): 265-270.
學術論著
[2] 清潔生產教程,化學工業出版社;
[3] 中國大百科全書:環境科學,中國大百科全書出版社。
榮譽與獎勵
[2] 天津市一三一科技人才計劃第二層次人才,2015年;
[3] 第九屆國際水資源會議青年學術獎,2014年;
[4] 天津市環境保護科學技術獎二等獎,排名第2。
