李遠志(武漢理工大學材料科學與工程學院教授)

李遠志：2003年6月在南京大學化學化工學院獲博士學位，2003年9月至2004年4月在韓國Sejong 大學作博士後研究，2004年4月至2006年8月在日本理化學研究所前沿研究系統任研究員，自2006年9月起任武漢理工大學教授，湖北省自然科學基金創新群體學術帶頭人，擔任J. Am. Chem. Soc.， Angew. Chem. Int. Ed.等30多種國際重要期刊審稿人，擔任美國化學會石油研究基金（ACS Petroleum Research Fund）項目評審人。近幾年來，在納微結構TiO2、ZnO、CeO2、MnO2等半導體氧化物及其複合物環境淨化材料的合成、光（熱）催化淨化性能及機理等方面，開展了較系統深入的研究工作，取得了一些創新性研究成果，先後在多種國際重要刊物上，如：J. Am. Chem. Soc., Adv. Mater.，Chem. Mater.，Environ. Sci. Technol., J. Mater. Chem. J. Phys. Chem. C（B），Langmuir等發表SCI論文50餘篇，論文被它引1400餘次。2010年獲湖北省自然科學三等獎（排名第一）以及湖北省科技論文一等獎（排名第一）；獲國際專利1項、國家發明專利授權4項和日本專利2項，多次在相關國際會議上作邀請報告。

1、納微結構環境淨化材料

2、納微結構隔熱保溫材料

1.全太陽光譜驅動納米結構OMS-2催化淨化揮發性有機污染物，國家自然科學基金項目，2015.1-2018.12。

2.半導體氧化物納米晶的晶面、缺陷調控及其對光熱協同催化淨化VOCs性能的影響，國家自然科學基金項目，2013.1-2016.12。

3.TiO2基納米光催化材料及器件的製備與性能最佳化，國家重大基礎研究項目，2009.1-2013.12。

4.新型納孔建築保溫防火材料的開發及產業化, 湖北省科技支撐計畫, 2014.1-2015.12.

5.基於光催化和多相催化耦合的汽車尾氣淨化材料的套用基礎研究, 湖北省創新群體項目, 2011.1-2012.12。

6.三維有序大孔/介孔半導體薄膜的微結構調控及其在污染治理中的套用，教育部重大項目，2009.1-2011.12。

[1] M. Kong, Y. Z. Li*, X. Chen, T. T. Tian, P. F. Fang, F. Zheng, X. J. Zhao, Tuning the Relative Concentration Ratio of Bulk Defects to Surface Defects in TiO2 Nano Crystal Leads to High Efficient Photocatalytic Efficiency,J. Am. Chem. Soc. 2011, 133, 16414–16417.

[2] L. Ren, Y. Z. Li*, J. T. Hou, X. J. Zhao, X. C. Pan, Preparation and Enhanced Photocatalytic Activity of TiO2 Nanocrystals with Internal Pores, ACS Appl. Mater. Interfaces2014, 6,1608−1615.

[3] J. T. Hou , Y. Z. Li *, M. Y. Mao , L. Ren , X. J. Zhao, Tremendous Effect of the Morphology of Birnessite-Type Manganese Oxide Nanostructures on Catalytic Activity, ACS Appl. Mater. Interfaces, 2014, 6, 14981–14987.

[4] J. T. Hou, L. L. Liu, Y. Z. Li*, M. Y. Mao, H. Q. Lv, X. J. Zhao, Tuning the K+ Concentration in the Tunnel of OMS-2 Nanorods Leads to a Significant Enhancement of the Catalytic Activity for Benzene Oxidation, Environ. Sci. Technol. 2013, 47, 13730-13736.

[5] J. T. Hou, Y. Z. Li,* L. L. Liu, L. Ren, X. J. Zhao, Effect of giant oxygen vacancy defects on the catalytic oxidation of OMS-2 nanorods, J. Mater. Chem. A 2013,1, 6736–6741.

[6] W. Q. Shi, Y. Z. Li,* J. T. Hou, H. Q. Lv,X. J. Zhao, P. F. Fang, F. Zheng, S. J. Wang, Densely Populated Mesopores in Microcuboid CeO2 Crystal Leads to a Significant Enhancement of Catalytic Activity，J. Mater. Chem. A 2013, 1, 728-734, 2013.

[7] L. Ren, T. T. Tian, Y. Z. Li*, J. G. Huang, X. J. Zhao, High-Performance UV Photodetection of Unique ZnO Nanowires from Zinc Carbonate Hydroxide Nanobelts, ACS Appl. Mater. Interfaces2013, 5, 5861–5867.

[8] S. F. Jin, Y. Z. Li*, H. Xie, X. Chen, T. T. Tian, X. J. Zhao, Highly Selective Photocatalytic and Sensing Properties of 2D-Ordered Dome films of Nano Titania and Nano Ag2+ doped Titania,J. Mater. Chem.2012, 22, 1469-1476.

[9] W. Xie, Y. Z. Li*, W.Q. Shi, L. Zhao, X. J. Zhao, P. F. Fang, F. Zheng, S. J. Wang，Novel effect of significant enhancement of gas-phase photocatalytic efficiency for nano ZnO, Chem. Eng. J. 2012,213, 218–224.

[10] W. Sun, Y. Z. Li,* W. Q. Shi, X. J. Zhao, P. F. Fang, Formation of AgI/TiO2 Nanocomposite Leads to Excellent Thermochromic Reversibility and Photostability, J. Mater. Chem. 2011, 21, 9263-9270.

[11] Y. Z. Li,* Q. Sun, M. Kong, W. Q. Shi, J. C. Huang, J. W. Tang, X. J. Zhao，Coupling Oxygen Ion Conduction to Photocatalysis in Mesoporous Nanorod-like Ceria Significantly Improves Photocatalytic Efficiency, J. Phys. Chem. C 2011, 115,14050–14057.

[12] Q. Yue, Y. Z. Li,* M. Kong, J. C. Huang, X. J. Zhao, J.Liu, R. E Williford，Ultralow Density, Hollow Silica Foams Through Interfacial Reaction and Their Exceptional Properties for Environmental and Energy Applications, J. Mater. Chem. 2011,21, 12041-12046.

[13] Y.Z. Li,* J. C. Huang, T. Peng, J. Xu, X. J. Zhao, Photothermo- catalytic Synergetic Effect Leads to High Efficient Detoxification of Benzene on TiO2 and Pt/TiO2 Nanocomposit, ChemCatChem, 2010, 2, 1082-1087.

[14] H. Xie, Y. Z. Li*, S. F. Jin, J. J.Han, X. J. Zhao, Facile Fabrication of 3D-Ordered Macroporous Nanocrystalline Iron Oxide Films with Highly Efficient Visible Light Induced Photocatalytic Activity, J. Phys. Chem. C 2010, 114, 9706-9712.

[15] Y. Z. Li,* W. Xie, X. L. Hu, G. F. Shen, X. Zhou, Y. Xiang, X. J. Zhao and P. F. Fang, Comparison of Dye Photodegradation and its Coupling with Light-to-Electricity Conversion over TiO2 and ZnO, Langmuir, 2010,26, 591-597.

[16] Y. Z. Li,* X. Zhou, X. L. Hu, X. J. Zhao, and P. F. Fang, Formation of Surface Complex Leading to Efficient Visible Photocatalytic Activity and Improvement of Photostabilty of ZnO, J. Phys. Chem. C 2009, 113, 16188-16192.

[17] Y. Z. Li, T. Kunitake, Y. Aoki, and E. Muto, Efficient, Anhydrous Proton- Conducting Nanofilm of Y-doped Zirconium Pyrophosphate at Intermediate Temperatures, Adv. Mater. 2008, 20, 2398-2404.

[18] Y. Z. Li,* H. Zhang, X. L. Hu, X. J. Zhao, and M. Han, Efficient Visible-Light- Induced Photocatalytic Activity of a 3D-Ordered Titania Hybrid Photocatalyst with a Core/Shell Structure of Dye-Containing Polymer/Titania, J. Phys. Chem. C 2008, 112, 14973-14979.

[19] Y. .Z Li,* H. Zhang,Z. M. Guo,J. J. Han, X. J. Zhao, Qingnan Zhao, and S. J. Kim, Highly Efficient Visible-Light-Induced Photocatalytic Activity of Nanostructured AgI/TiO2 Photocatalyst, Langmuir 2008, 24, 8351-8357.