李瑛

浙江工業大學教授

李瑛,女,1975年生,博士,浙江工業大學化材學院教授、博士生導師。2013年擔任浙江省科協九屆委員,浙江省石油學會理事,浙江省氟化工聯盟理事。及多個學術期刊的評審人。

教育及工作經歷


2007/9- 至今 浙江工業大學化材學院工業催化研究所。2008年底 被破格聘為研究員,09年受 聘校8級學術特聘崗。2011年獲得 博士生導師資格。2013年擔任浙江省科協九屆委員,浙江省石油學會理事,浙江省氟化工聯盟理事。及多個學術期刊的評審人。
2005/7-2007/7 Eindhoven University of Technology,荷蘭;博士后及訪問學者,研究方向:微孔分子篩及中孔氧化硅材料的調控合成及催化應用。合作導師:Prof. Rutger Van Santen(荷蘭皇家科學院院士)
2001/9 –2005/7中國科學院大連化學物理研究所催化基礎國家重點實驗室,物理化學專業;理學博士, 研究方向: 微孔及中孔材料的調控合成及催化應用;論文題目:
« Al-SBA-15和Fe-SBA-15介孔材料的合成、表徵及催化性能研究»。指導老師:李燦研究員。(中國科學院院士,國際催化委員會主席)
1998/9 –2001/7浙江工業大學, 工學碩士, 工業催化專業;研究方向:催化反應過程及催化新材料。論文題目《釕基氨合成催化劑的研究》。指導老師:劉化章研究員,浙江省特聘專家。
1994/9 –1998/7 山東師範大學, 化工分析與檢測專業,學士

科研項目


1. 新型材料的基礎理論研究:吸留在多微孔材料中少量過渡金屬氧化物的化學和催化反應,國際973合作項目,2004CB720607,主要研究人員
2. 新結構高性能多孔催化材料創製的基礎研究,國家重點基礎研究發展計劃973 計劃,主要研究人員
3. 國家自然科學基金重大國際(地區)合作研究項目微孔-介孔材料孔道中過渡金屬氧化族簇的化學和催化反應,項目編號20520130214 依託基金號 20321303
4. 中國石油化工股份有限公司重點科研項目,釕基氨合成催化劑研究 (項目編號:499051)
5. 國家自然基金面上項目:載體的孔結構對負載型貴金屬納米粒子的限域作用研究(20803064),項目負責人
6. 浙江省省科技廳(錢江人才計劃B類)新型高比表面氟氯交換反應固體酸催化劑的研發, 2010R10039, 項目負責人
7. 浙江省自然科學基金:高比表面石墨化碳素材料硬模板法製備及其負載貴金屬催化劑研究(Y4090348),2009年度留學人員科技活動項目擇優資助,題目:高比表面石墨碳素材料硬模板法製備及其負載貴金屬催化劑研究,項目負責人
8. 國家級大學生創新科技計劃資助項目(081033702),鐵硅介孔材料中鐵物種的調控合成。藍國鈞,顏宇,2008.07-2010.07,指導老師。

學術貢獻


研究領域:新型多孔碳素材料及其複合材料的合成、在吸附和催化領域中的應用;負載貴金屬納米催化劑的調控合成及其在催化加氫反應中的應用;工業合成氨催化劑的開發及產業化應用等。新型炭基固體酸材料的開發及產業化應用。
曾在國際物理化學及材料化學重要刊物上發表論文50餘篇。引用次數愈600多次,在多孔炭材料的調控合成及負載貴金屬催化應用領域等領域已經具有一定的影響。
發表的主要學術論著:
國際刊物(SCI):
(1) Direct Synthesis of Al-SBA-15 Mesoporous Materials via Hydrolysis-Controlled Approach
Ying Li,Wenhua Zhang, Lei Zhang, Qihua Yang, Zhaobin Wei, Zhaochi Feng, and Can Li
The Journal of Physical Chemistry B (影響因子IF: 4.033) 2004, 108, 9739-9744.
(3) Direct Synthesis of Highly Ordered Fe-SBA-15 Mesoporous Materials under Weak Acidic Conditions
Ying Li, Zhaochi Feng, Yuxiang Lian, Keqiang Sun, Guoqing, Jia Qihua Yang, Can Li
Microporous and Mesoporous Materials, (IF: 3.355) 2005, 84, 41-49
(3) Effect of Aluminum on the Nature of the Iron Species in Fe-SBA-15
Ying Li,Zhaochi Feng, Hongchuan Xin, Fengtao Fan, P. C. M. M. Magusin, E.J. M. Hensen, R.A. van Santen, Qihua Yang, Can Li
The Journal of Physical Chemistry B (IF: 4.033) 2006, 2006, 110, 26114-26121.
(4) Iron-functionalized Al-SBA-15 for benzene hydroxylation
Ying Li,Haian Xia, Fengtao Fan, Zhaochi Feng, Rutger A. van Santen, Emiel J. M. Hensen and Can Li
Chemical Communication, 2008, 774-776
(5) Surface functionalization of SBA-15 ordered mesoporous silicas: oxidation of benzene to phenol by nitrous oxide,
Ying Li, Zhaochi Feng, R. A. van Santen, E. J. M. Hensen, and Can Li,
Journal of Catalysis, 2008, 255, 190-196.
(6) High-temperature FeS–FeS2 solid-state transitions Reactions of solid mackinawite with gaseous H2S,
Ying Li,R. A. van Santen, Thomas Weber
J. Solid. State. Chem., 2008,181,3151-3162
(7) Hydrothermal Stability and Catalytic Activity of Aluminum-Containing Mesoporous Ethane-Silicas
Qihua Yang, Ying Li,Lei Zhang, Jie Yang, Jian Liu, and Can Li
The Journal of Physical Chemistry B (IF: 4.033) 2004, 108, 7934-7938.
(8) Mesoporous Aluminosilicates Synthesized with Single Molecular Precursor (Sec-Buo)2alosi(Oet)3 as Aluminum Source
Ying Li, Qihua Yang, Jie Yang, and Can Li
Microporous and Mesoporous Materials, (IF: 3.355) 2006, 91, 85-91.
(9) Synthesis of Mesoporous Aluminosilicates with Low Si/Al Ratios Using a Single-Source Molecular Precursor under Acidic Conditions
Ying Li, Qihua Yang, Jie Yang and Can Li
Journal of Porous Material (IF: 0.698) 2006, 13, 187-193.
Oral presentation in 3th International Conference on Materials for Advanced Technology ICMAT & IUMRS-ICAM 2005, Oral presentation, 2005, July. Singapore.
(10) Aluminum-substituted Mesoporous Molecular Sieve SBA-15 Synthesized with a Hydrolysis-controlled Approach
Ying Li, Wenhua Zhang, Lei Zhang, Qihua Yang, Can Li
The 13th International Congress on Catalysis, poster, p1-010, Paris, France, July 11-16. 2004.
(11) Aluminium-containing Mesoporous Benzene-Silicas with Crystal-Like Pore Wall Structure
Qihua Yang*, Jie Yang, Zhaochi Feng and Ying Li
Journal of Materials Chemistry, (IF: 3.688) 2005, 15, 4268-4274
(12) Synthesis and Characterization of Phosphonic Acid Functionalized Organosilicas with Bimodal Nanostructure
Qihua Yang, Jie Yang, Jian Liu, Ying Li,and Can Li,
Chemistry of Materials, (IF: 4.818) 2005, 17(11), 3019-3024.
(13) Hydrothermally Stable Thioether-Bridged Mesoporous Materials with Void Defects in the Pore Wall
Jian Liu, Jie Yang, Qihua Yang, Gang Wang, Ying Li
Advanced Functional Materials (IF: 6.77) 2005, 15, 1297-1302
(14) Pore Size Design of Ordered Mesoporous Silicas by Controlling Micellar Properties of Triblock Copolymer EO20PO70EO20
Wen-Hua Zhang, Lei Zhang, Jinghai Xiu, Zhiqi Shen, Ying Li,Pinliang Ying, Can Li
Microporous and Mesoporous Materials, (IF: 3.355) 2006, 89, 179-185.
(15) Highly Ordered Periodic Mesoporous Ethanesilica Synthesized under Neutral Conditions
Lei Zhang, Qihua Yang, Wenhua Zhang, Ying Li,Dongmei Jiang, Guiru Zhu, Can Li,
Journal of Materials Chemistry, (IF: 3.688) 2005, 15(26), 2562-2569.
(16) Dibenzodioxin Adsorption on Inorganic Materials
Yejun Guan, Yan Liu, Weicheng Wu, Keqiang Sun, Ying Li,Pinliang Ying, Zhaochi Feng, and Can Li,
Langmuir, (IF: 3.705) 2005, 21, 3877-3880.
(17) Synthesis of Bifunctionalized Mesoporous Organosilica Spheres for High-Performance Liquid Chromatography
Guiru Zhu, Qihua Yang, Dongmei Jiang, Jie Yang, Lei Zhang, Ying Li,Can Li
Journal Chromatogram A, (IF: 3.096) 2006, 1103: 257-264
(18) Preparation and Characterization Of Ordered Mesoporous Carbons on SBA-15 Template
Zhonglai Li, Jing Zhang, Ying Li, Yejun Guan, Zhaochi Feng, Can Li
Journal Material Chemistry, (IF: 3.688) 2006, 16, 1350–1354
(19) Enhancement of a-oxygen Formation and N2O Decomposition on Fe/ZSM-5 Catalysts by Extraframework Al
Keqiang Sun, Haidong Zhang, Haian Xia, Yuxiang Lian, Ying Li,Zhaochi Feng, Pinliang Ying and Can Li
Chemical Communication, (IF: 4.426) 2004, 2480-2481.
(20) Controlling reaction pathways for alcohol dehydration and dehydrogenation over FeSBA-15 catalysts,
Yejun Guan, Ying Li,E.J. M. Hensen, R.A. van Santen, and Can Li,
Catal. Lett., 2007, 117, 18-24.