劉升衛(wèi) [教授]

基本情況
 
劉升衛(wèi)，男，環(huán)境工程系，教授，博士生導師。近年來研究興趣主要涉及光催化與污染控制光化學、VOC治理與室內空氣凈化、CO2捕集與資源化利用、新興有機污染物的監(jiān)測與深度凈化、高級氧化技術與殺菌消毒、吸附材料與過程等，相關研究成果在J. Am. Chem. Soc.，J. Catal.， Appl. Catal. B，Water Res.等刊物上發(fā)表50余篇SCI論文，其中8篇論文為ESI Top 1% 高被引論文，個人H因子為32，論文SCI他引5000余篇次。

歡迎環(huán)境、材料、化學、物理等學科感興趣的本科生、碩士、博士、博士后與專職科研人員加盟。

                                                         
聯(lián)系方式
     地址：廣州大學城外環(huán)東路132號中山大學東校區(qū)環(huán)境科學與工程學院（510006）
     電話：+86-020-31130401
     E-mail: lsw_whut@163.com

教育經歷
     2007/03－2009 /12，武漢理工大學，材料物理與化學，博士（ 導師 余家國教授）
     2008/09－2009 /09，英國Bristol大學(博士聯(lián)合培養(yǎng))（ 導師 Stephen Mann教授）
     2003/09－2005/07， 武漢理工大學，材料學，碩士
     1999/09－2003 /07，武漢理工大學，材料科學與工程，本科

工作經歷

     2015/10－至今，       中山大學環(huán)境科學與工程學院，“百人計劃”教授，博士生導師

     2011/09－2015/09，武漢理工大學材料復合新技術國家重點實驗室， 副研究員， 碩士生導師
     2012/11－2014/11，香港中文大學生命科學學院，“香江學者”博士后（合作導師 王保強 教授）
     2010/04－2011/09，武漢理工大學材料復合新技術國家重點實驗室， 助理研究員
     2005/08－2006/04，中科院上海硅酸鹽研究所，研究實習員（合作導師 王文中研究員）
  

講授課程

      環(huán)境工程原理（本科）      

      環(huán)境化學（本科）       

      環(huán)境催化原理及應用（碩士）       

      環(huán)境光化學與光催化（博士）

研究領域

      1. 環(huán)境光催化與光化學 

      2. 污染控制與資源化

      3. 環(huán)境材料與低碳技術

科研項目
主持完成國家自然科學基金青年基金，湖北省自然科學基金，中國博士后科學基金（面上項目與特別資助），參與完成973與863項目子課題，國家自然科學基金面上項目/重點項目7項，指導本科生完成“國家大學生創(chuàng)新性實驗計劃”。目前主要主持在研項目：
      1. 環(huán)境光催化與污染控制光化學，中山大學“百人計劃”啟動項目，2015-2018
      2. TiO2基空心光催化材料的原位表面剪裁及其CO2還原性能與機理，國家自然科學基金面上項目，2016-2019
  
獲獎情況

      2016年獲湖北省自然科學一等獎（排名第三）

      2014年獲國家自然科學二等獎（排名第四）

      2013年獲湖北省自然科學一等獎（排名第四）

      2012年獲 “太陽能光化學和光催化研究領域優(yōu)秀青年獎”
      

代表論文 (http://www.researcherid.com/rid/D-8768-2011)

A. 外文書章節(jié)：

1. S.W. Liu, J.G. Yu, (2016): Chapter 10: Effect of F-Doping on the Photocatalytic Activity and Microstructures of Nanocrystalline TiO₂ Powders. Nanostructured Photocatalysts - Advanced Functional Materials (Springer), Eds. H. Yamashita and H.X. Li.

B. SCI研究論文：

1.  X.X. Peng, Z.N. Wang, J.F. Huang, B. R. Pittendrigh, S.W. Liu*, X.S. Jia, P. K. Wong*, Efficient degradation of tetrabromobisphenol A by synergistic integration of Fe/Ni bimetallic catalysis and microbial acclimation, Water Res., 2017, 122, 471-480.

2.  S.Y. Lan, J.X. Feng, Y. Xiong*, S.H. Tian*, S.W. Liu, L.J. Kong, Performance and Mechanism of Piezo-Catalytic Degradation of 4‑Chlorophenol: Finding of Effective Piezo-Dechlorination, Environ. Sci. Technol. 2017, 51, 6560−6569.

3. H.W. Sun, X.X. Peng, S.P. Zhang, S.W. Liu*, Y. Xiong, S.H. Tian, J.Y. Fang, Activation of peroxymonosulfate by nitrogen-functionalized sludge carbon for efficient degradation of organic pollutants in water, Bioresource Technol. 2017, 241, 244–251.

4. S.W. Liu*, F. Chen, S.T. Li, X.X. Peng, Y. Xiong, Enhanced photocatalytic conversion of greenhouse gas CO2 into solar fuels over g-C3N4 nanotubes with decorated transparent ZIF-8 nanoclusters, Appl. Catal. B, 2017, 211, 1-10.

5. X.X. Peng, Y. Tian, S.W. Liu*, X.S. Jia*, Degradation of TBBPA and BPA from aqueous solution using organo-montmorillonite supported nanoscale zero-valent iron, Chem. Eng. J. 2017, 309, 717–724.

6.  F. Chen, S.W. Liu* and J.G. Yu*, Efficient removal of gaseous formaldehyde in air using hierarchical titanate nanospheres with in situ amine functionalization, Phys. Chem. Chem. Phys., 2016,18, 18161-18168.

7. S.W. Liu*, J.H. Wang and J.G Yu*, ZIF-8 derived bimodal carbon modified ZnO photocatalysts with enhanced photocatalytic CO2 reduction performance, RSC Adv., 2016, 6, 59998–60006.

8. M.S. Akple, J.X. Low, S.W. Liu, B. Cheng, J.G. Yu, W.K. Ho, Fabrication and enhanced CO₂ reduction performance of N-self-doped TiO₂microsheet photocatalyst by bi-cocatalyst modification, J. CO₂ Util., 2016, 16, 442-449.

9. S. W. Liu*, J. Q. Xia, J. G. Yu* Amine-Functionalized Titanate Nanosheet-Assembled Yolk@Shell Microspheres for Efficient Cocatalyst-Free Visible-Light Photocatalytic CO2 Reduction, ACS Appl. Mater. Interfaces, 7(15), pp 8166, 2015.

10. M. S. Akple, J. X. Low, Z. Y. Qin, S. Wageh, A. A. Al‐Ghamdi, J. G. Yu *, S. W. Liu*, Nitrogen-doped TiO2 microsheets with enhanced visible light photocatalytic activity for CO₂ reduction, Chin. J. Catal., 36(12), pp 2127, 2015.(封面論文)

11. S. W. Liu, G. C. Huang, J. G. Yu*, T. W. Ng, H. Y. Yip, P. K. Wong*, Porous Fluorinated SnO2 Hollow Nanospheres: Transformative Self-assembly and Photocatalytic Inactivation of Bacteria, ACS Appl. Mater. Interfaces, 6(4), pp 2407, 2014.

12. Y. Yin, J. C. Han, X.H. Zhang, Y.M. Zhang, J. G. Zhou, D. Muir, R. Sutarto, Z. H. Zhang, S. W. Liu*, B. Song*, Facile synthesis of few-layer-thick carbon nitride nanosheets by liquid ammonia-assisted lithiation method and their photocatalytic redox properties, RSC Adv., 4, 32690-32697, 2014.

13. W. G. Wang, S. W. Liu, L. H. Nie, B. Cheng, J. G. Yu*, Enhanced photocatalytic H2-production activity of TiO2 using Ni(NO3)2 as an additive, Phys. Chem. Chem. Phys., 15(29), pp 12033-12039 , 2013.

14. J.G. Yu*, Q. Li, S.W. Liu, M. Jaroniec, Ionic-Liquid-Assisted Synthesis of Uniform Fluorinated B/C-Codoped TiO2 Nanocrystals and Their Enhanced Visible-Light Photocatalytic Activity, Chem. Eur. J., 19(7), pp 2433-2441, 2013.

15. S. W. Liu, C. Liu, W.G. Wang, B. Cheng, J. G. Yu, Unique photocatalytic oxidation reactivity and selectivity of TiO2-graphene nanocomposites, Nanoscale, 4(10), pp 3193, 2012. (Top 1% 高被引論文)

16. S. W. Liu, K. Yin,  W. S. Ren, B. Cheng, J. G. Yu*, Tandem photocatalytic oxidation of Rhodamine B over surface fluorinated bismuth vanadate crystals, J. Mater. Chem., 22(34), pp 17759, 2012.

17. S. W. Liu, J. G. Yu*, B. Cheng, M. Jaroniec*, Fluorinated Semiconductor Photocatalysts: Tunable Synthesis and Unique Properties, Adv. Colloid Interface Sci. 173, pp 35, 2012.

18. J. J. Fan, S.W. Liu, J.G. Yu*, Enhanced photovoltaic performance of dye-sensitized solar cells based on TiO2 nanosheets/graphene composite films, J. Mater. Chem., 22(33), pp 17027, 2012.

19. S. W. Liu, J. G. Yu*, M. Jaroniec*, Anatase TiO₂ with Dominant High-Energy {001} Facets: Synthesis, Properties, and Applications, Chem. Mater., 23(18), pp 4085, 2011.（Top 1% 高被引論文, 封面論文）

20. S. W. Liu, C. Li, J. G. Yu* and Q. J. Xiang, Improved visible-light photocatalytic activity of porous carbon self-doped ZnO nanosheet-assembled flowers, CrystEngComm, 13(7), pp 2533, 2011.（Top 1% 高被引論文）

21. J.G. Yu*, T.T. Ma, S.W. Liu, Enhanced photocatalytic activity of mesoporous TiO₂ aggregates by embedding carbon nanotubes as electron-transfer channel, Phys. Chem. Chem. Phys., 13(8), pp 3491-3501, 2011.

22. X.X. Yu, S.W. Liu, J.G. Yu*, Superparamagnetic gamma-Fe₂O₃@SiO₂@TiO₂ composite microspheres with superior photocatalytic properties, Appl. Catal. B, 104(1-2), pp 12, 2011.

23. J. Zhang, S.W. Liu, J.G. Yu*, M. Jaroniec*, A simple cation exchange approach to Bi-doped ZnS hollow spheres with enhanced UV and visible-light photocatalytic H2-production activity, J. Mater. Chem., 21(38), pp 14655, 2011.

24. X.F. Wang, S.F. Li, H.G. Yu, J.G. Yu*, S.W. Liu, Ag2O as a New Visible-Light Photocatalyst: Self-Stability and High Photocatalytic Activity, Chem. Eur. J., 17(28), pp 7777-7780, 2011.

25. S. W. Liu, J. G. Yu*, M. Jaroniec*, Tunable Photocatalytic Selectivity of Hollow TiO2 Microspheres Composed of Anatase Polyhedra with Exposed {001} Facets, J. Am. Chem. Soc., 132(34), pp 11914, 2010. （引用次數：675, Top 1% 高被引論文）

26. S. W. Liu, J. G. Yu*, W. G. Wang, Effects of annealing on the microstructures and photoactivity of fluorinated N-doped TiO2, Phys. Chem. Chem. Phys., 12(38), pp 12308, 2010.

27. J.G. Yu*, J. Zhang, S.W. Liu, Ion-Exchange Synthesis and Enhanced Visible-Light Photoactivity of CuS/ZnS Nanocomposite Hollow Spheres, J. Phys. Chem. C, 114(32) pp 13642-13649, 2010.

28. S. W. Liu, J. G. Yu*, S. Mann*, Spontaneous construction of photoactive hollow TiO2 microspheres and chains, Nanotechnology, 20(32), pp 325606, 2009.

29. S. W. Liu, J. G. Yu*, S. Mann*, Synergetic codoping in fluorinated Ti1-xZrxO2 hollow microspheres, J. Phys. Chem. C, 113(24), pp 10712, 2009.

30. M.H. Zhou, J.G. Yu*, S.W. Liu, P.C. Zhai, B.B. Huang, Spray-hydrolytic synthesis of highly photoactive mesoporous anatase nanospheres for the photocatalytic degradation of toluene in air, Appl. Catal. B, 89(1-2) pp 160-166, 2009.

31. J.G. Yu*, L. Yue, S.W. Liu, B.B. Huang, X.Y. Zhang, Hydrothermal preparation and photocatalytic activity of mesoporous Au-TiO2 nanocomposite microspheres, J. Colloid Interface Sci., 334(1), pp 58-64, 2009.

32. S. W. Liu, J. G. Yu*, Cooperative self-construction and enhanced optical absorption of nanoplates-assembled hierarchical Bi2WO6 flowers, J. Solid State Chem., 181(5), pp 1048, 2008.

33. J. G. Yu*, S. W. Liu, M. H. Zhou, Enhanced Photocalytic Activity of Hollow Anatase Microspheres by Sn4+ Incorporation. J. Phys. Chem. C, 112(6), pp 2050, 2008.

34. M.H. Zhou, J.G. Yu*, S.W. Liu, P.C. Zhai, L. Jiang, Effects of calcination temperatures on photocatalytic activity of SnO2/TiO2 composite films prepared by an EPD method, J. Hazard. Mater., 154(1-3), pp 1141-1148, 2008.

35. J. G. Yu*, S. W. Liu, H. G. Yu, Microstructures and photoactivity of mesoporous anatase hollow microspheres fabricated by fluoride-mediated self-transformation. J. Catal., 249(1), pp 59, 2007.

36. Yu, HG. J.G. Yu*, S.W. Liu, Mann, S. Template-free hydrothermal synthesis of CuO/Cu₂O composite hollow microspheres, Chem. Mater., 19(17), pp 4327-4334, 2007.

37.  H.G. Yu, J.G. Yu*, B. Cheng, S.W. Liu, Novel preparation and photocatalytic activity of one-dimensional TiO₂ hollow structures, Nanotechnology, 18 (6) pp 065604, 2007.

38.  L. Zhou, W.Z. Wang*, S.W. Liu, L.S. Zhang, H.L. Xu, W. Zhu, A sonochemical route to visible-light-driven high-activity BiVO₄ photocatalyst, J. Mol. Catal. A -Chem., 252(1-2), pp 120-124, 2006.

39.  L.S. Zhang, W.Z. Wang*, J. Yang, Z.G. Chen, W.Q. Zhang, L. Zhou, S.W. Liu, Sonochemical synthesis of nanocrystallite Bi₂O₃ as a visible-light-driven photocatalyst, Appl. Catal. A, 308, pp 105-110, 2006.

40. J.G. Yu*, J.F. Xiong, B. Cheng, Liu, S.W. Liu, Fabrication and characterization of Ag-TiO2 multiphase nanocomposite thin films with enhanced photocatalytic activity, Appl. Catal. B, 60(3-4) pp 211-221, 2005