中国给水排水2024年污水处理厂提标改造(污水处理提质增效)高级研讨会(第八届)邀请函暨征稿启事
 
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李传浩 ---中山大学,环境科学与工程学院, 教授,博士生导师

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核心提示:李传浩 ---中山大学,环境科学与工程学院, 教授,博士生导师
中国给水排水2024年污水处理厂提标改造(污水处理提质增效)高级研讨会(第八届)邀请函暨征稿启事

中国给水排水2024年污水处理厂提标改造(污水处理提质增效)高级研讨会(第八届)邀请函暨征稿启事
 

李传浩 [教授]

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基本情况
李传浩,男,博士,教授,博士生导师,环境工程专业。

李传浩博士的课题组主要从事化学、材料与环境工程交叉领域的研究,研究方向涉及太阳能驱动光-电催化水处理技术、光-热杀菌技术以及新型纳米水处理技术等。共发表SCI论文39篇(第一/通讯作者13篇),包括Energy & Environmental ScienceJournal of the American Chemical Society, Applied Catalysis B: Environmental, Journal of Catalysis等杂志,论文共获得1100余次引用。

课题组欢迎具有环境、化学、材料等学科背景的本科生、硕士生、博士生及科研人员加入到我科研团队。欢迎有意向的同学发送简历到邮箱讨论。

 

联系方式
· 
地址:广州市大学城外环东路132 中山大学环境科学与工程学院
· 
邮编:510006

· E-mail: lichuanh3@mail.sysu.edu.cn

教育经历
2001.9-2005.6
,安徽大学,化学化工学院应用化学专业,学士
2005.9-2008.6
,安徽大学,化学化工学院应用化学专业,硕士
2008.8-2011.7
,香港中文大学,化学系,博士

工作经历

2011.9-2012.1,香港中文大学,化学系,博士后

2012.2-2013.6,安徽大学,化学化工学院任教

2013.9-2016.8,耶鲁大学环境与化工系,博士后/Research Scientist

2016.9-至今,中山大学,环境科学与工程学院,百人计划教授,博士生导师

研究方向

环境催化;

纳米水处理技术

-电(热)催化

代表性论著:

Book Chapter:

1. Li, C., Chan, D. K. L., and Yu, J. C. (2014): Chapter 4: Ultrasound-Assisted Synthesis of Metal Oxide Nanomaterials. In Cavitation: A Novel Energy Efficient Technique for the Generation of Nanomaterials, Eds. S. Manickam, and M. Ashokkumar, (Pan Stanford Publishing), Singapore

 

Articles

1.    Li, C.; Koenigsmann, C.; Ding, W.; Rudshteyn, B.; Yang, K. R.; Regan, K. P.; Konezny, S. J.; Batista, V. S.; Brudvig, G. W.; Schmuttenmaer, C. A.; Kim, J-H., Facet-Dependent Photoelectrochemical Performance of TiO2 Nanostructures: An Experimental and Computational Study. Journal of the American Chemical Society2015, 137, (4), 1520-1529.

2. Li, C.; Koenigsmann, C.; Deng, F.; Hagstrom, A.; Schmuttenmaer, C. A.; Kim, J-H., Increased Conversion Efficiency of Sub-bandgap Light in Photoelectrochemical Cells Utilizing Triplet-Triplet Annihilation Upconversion Films at Relatively Low Light Density. ACS Photonics. 2016, 3 (5), 784–790.

3.    Li, C.; Ming, T.; Wang, J.; Wang, J.; Jimmy, C. Y.; Yu, S.H., Ultrasonic aerosol spray-assisted preparation of TiO2/In2O3 composite for visible-light-driven photocatalysis.Journal of Catalysis 2014, 310, 84-90.

4.    Li, C.; Wang, F.; Jimmy, C. Y., Semiconductor/biomolecular composites for solar energy applications. Energy & Environmental Science 2011, 4, (1), 100-113.

5.    Li, C.; Yang, X.; Yu, J.; Ming, T.; Wang, J., Porous upconversion materials-assisted near infrared energy harvesting by chlorophylls. Chemical Communications 2011, 47, (12), 3511-3513.

6.    Li, C.; Shen, Y.; Xie, A.; Wang, J.; Zhang, Q.; Li, S., A novel method to realize the transition from silver nanowires to nanoplates based on the degradation of DNA. Journal of Nanoparticle Research 2010, 12, (7), 2679-2687.

7.    Li, C.; Wang, F.; Zhu, J.; Jimmy, C. Y., NaYF4: Yb, Tm/CdS composite as a novel near-infrared-driven photocatalyst. Applied Catalysis B: Environmental 2010, 100, (3), 433-439.

8.  Li, C. H., and Yu, J. C. (2010): A porous upconversion material for transferring Near Infrared Energy to Chlorophylls, pp. 47: 18th International conference on photochemical conversion and storage of solar energy, Korea

9.    Yuan, Y.-P.; Yin, L.-S.; Cao, S.-W.; Xu, G.-S.; Li, C.*; Xue, C.*, Improving photocatalytic hydrogen production of metal–organic framework UiO-66 octahedrons by dye-sensitization. Applied Catalysis B: Environmental 2015, 168, 572-576.

10.  Zhou, J.-J.; Wang, R.; Liu, X.-L.; Peng, F.-M.; Li, C.*; Teng, F.; Yuan, Y.-P.*, In situ growth of CdS nanoparticles on UiO-66 metal-organic framework octahedrons for enhanced photocatalytic hydrogen production under visible light irradiation. Applied Surface Science 2015, 346, 278-283.

11.  Wu, M.; Chen, W.-J.; Shen, Y.-H.; Huang, F.-Z.; Li, C.*; Li, S.-K.*, In Situ Growth of Matchlike ZnO/Au Plasmonic Heterostructure for Enhanced Photoelectrochemical Water Splitting. ACS Applied Materials & Interfaces 2014, 6, (17), 15052-15060.

12.  Zhu, S.; Zhang, H.; Chen, P.; Nie, L.-H.; Li, C.*; Li, S.-K.*, Self-assembled three-dimensional hierarchical graphene hybrid hydrogels with ultrathin β-MnO2 nanobelts for high performance supercapacitors. Journal of Materials Chemistry A 2015, 3, (4), 1540-1548.

13.  Li, S.-K.; Pan, Y.-Y.; Wu, M.; Huang, F.-Z.; Li, C.*; Shen, Y.-H.*, Large-scale and green synthesis of octahedral flower-like cupric oxide nanocrystals with enhanced photochemical properties. Applied Surface Science 2014, 315, 169-177.

14.  Moor, K. J.; Valle, D. C.; Li, C.; Kim, J.-H., Improving the Visible Light Photoactivity of Supported Fullerene Photocatalysts through the Use of [C70] Fullerene.Environmental Science & Technology 2015, 49, (10), 6190-6197.

15.  Wang, F.; Li, C.; Chen, H.; Jiang, R.; Sun, L.-D.; Li, Q.; Wang, J.; Yu, J. C.; Yan, C.-H., Plasmonic harvesting of light energy for Suzuki coupling reactions. Journal of the American Chemical Society 2013, 135, (15), 5588-5601.

16.  Wang, F.; Li, C.; Sun, L. D.; Xu, C. H.; Wang, J.; Yu, J. C.; Yan, C. H., Porous SingleCrystalline Palladium Nanoparticles with High Catalytic Activities. Angewandte Chemie International Edition 2012, 51, (20), 4872-4876.

17.  Wang, F.; Li, C.; Sun, L.-D.; Wu, H.; Ming, T.; Wang, J.; Yu, J. C.; Yan, C.-H., Heteroepitaxial growth of high-index-faceted palladium nanoshells and their catalytic performance. Journal of the American Chemical Society 2010, 133, (4), 1106-1111.

 
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