个人简介
教育背景
9/2008-8/2012 香港大学,土木工程系,环境工程博士
9/2004-7/2007 北京大学,城市与环境学院,生态学硕士
9/2000-7/2004 中国海洋大学,环境科学与工程学院,环境科学学士
工作经历
9/2014-目前 南方科技大学,助理教授/副研究员
9/2012- 2014/8 香港大学,博士后研究助理
7/2007-7/2008 中国资源综合利用协会能源资源综合利用委员会 ,秘书长助理
研究领域
重金属在陶瓷基体中的迁移转化及稳定化机理
生物质固废热解碳材料的环境应用及作用机理
典型城市固废陶瓷反应体系的物相调控及陶瓷膜研发
微塑料环境作用机制及生物毒性研究
近期论文
查看导师最新文章
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1. Tang, Y.;* Shih K.; Liu C.; Liao C. Cubic and Tetragonal Ferrite Crystal Structures for Copper Ion Immobilization in an Iron-rich Ceramic Matrix. RSC Advances 2016, 6, 28579–28585.
2. Liao, C.; Tang, Y. (Co-first author); Liu C.; Shih K.; Li F. Double-Barrier Mechanism for Chromium Immobilization: Aquantitative Study of Crystallization and Leachability. Journal of Hazardous Materials 2016, 311, 246-253.
3. Wang, B.; Tang, Y.*; Lu, X.-Y.*; Fung, S. L.; Wong, K. Y.; Au, W. K.; Wu, P. Rectangular Co3O4 with Micro-/nanoarchitectures: Charge-driven PDDA-assisted Synthesis and Excellent Lithium Storage Performance. Physical Chemistry Chemical Physics 2016, 18, 4911-4923.
4. Wang, B.; Lu, X.-Y.*; Tang, Y.*; Ben, W. Polyethyleneimine-Mediated General Synthesis of Ultrathin Hexagonal Co3O4 Nanosheets with Reactive Facets for Lithium Ion Batteries. ChemElectroChem 2016, 3, 55-65.
5. Wang, B.; Lu, X.-Y.*; Tang, Y.* Synthesis of Snowflake-shaped Co3O4 with a High Aspect Ratio as a High Capacity Anode Material for Lithium Ion Batteries. Journal of Materials Chemistry A 2015, 3, 9689-9699.
6. Tang, Y.; Lee, P.-H.; Shih, K. Copper Sludge from Printed Circuit Board Production/Recycling for Ceramic Materials: A Quantitative Analysis of Copper Transformation and Immobilization. Environmental Science & Technology 2013, 47, 8609-8615.
7. Tang, Y.; Shih, K.; Wang, Y.; Chong, T.-C. Zinc Stabilization Efficiency of Aluminate Spinel Structure and its Leaching Behavior. Environmental Science & Technology 2011, 45, 10544-10550.
8. Tang, Y.; Chui, S. S.-Y.; Shih, K.; Zhang, L. Copper Stabilization via Spinel Formation during the Sintering of Simulated Copper-Laden Sludge with Aluminum-Rich Ceramic Precursors. Environmental Science & Technology 2011, 45, 3598-3604.
9. Tang, Y.; Shih, K. Stabilization Mechanisms and Reaction Sequences for Sintering Simulated Copper-Laden Sludge with Alumina. ACS Sustainable Chemistry & Engineering 2013, 1, 1239-1245.
10. Tang, Y.; Lu, X.; Shih, K. Alumina Polymorphs Affect the Metal Immobilization Effect when Beneficially Using Copper-Bearing Electroplating Sludge for Ceramics. Chemosphere 2014, 117, 575-581.
11. Tang, Y.; Shih, K.; Chan, K. Copper Aluminate Spinel in the Stabilization and Detoxification of Simulated Copper-Laden Sludge. Chemosphere 2010, 80, 275-380.
12. Tang, Y.; Chan, S.-W.; Shih, K. Copper Stabilization in Beneficial Use of Waterworks Sludge and Copper-laden Electroplating Sludge for Ceramic Materials. Waste Management 2014, 34, 1085-1091.
13. Tang, Y.; Liu, C.; Shih, K. Beneficial Metal Stabilization Mechanisms in Using Simulated Sludge Incineration Ash for Ceramic Products. Journal of Chemical Technology & Biotechnology 2014, 89, 536-543
14. Tang, Y.; Shih, K. Mechanisms of Zinc Incorporation in Aluminosilicate Crystalline Structures and the Leaching Behavior of Product Phases. Environmental Technology In press.
15. Tang, Y.*; Shih, K. Beneficially Utilize Aluminum and Iron Components in Sludge Incineration Residues for Ceramic Materials. Submitted for “The HKIE Outstanding Paper Award for Young Engineers/Researchers 2014”, The Hong Kong Institution of Engineers (HKIE), 2014. In press
16. Shih, K.; Tang, Y. Prolonged Toxicity Characteristic Leaching Procedure for Nickel and Copper Aluminates. Journal of Environmental Monitoring 2011, 13, 829-835.
17. Shih, K.; Tang, Y. Incorporating Simulated Zinc Ash by Kaolinite- and Sludge-Based Ceramics: Phase Transformation and Product Leachability. Chinese Journal of Chemical Engineering 2012, 20, 411-416.
18. Shen, Z.; Tang, Y.; Lv, N.; Zhao, J.; Li, D.; Wang, G. Community Dynamics of Seed Rain in Mixed Evergreen Broad-leaved and Deciduous Forests in a Subtropical Mountain of Central China. Journal of Integrative Plant Biology 2007, 49, 1294-1303.
19. Wang, B.; Lu, X.-Y.; Tang, Y. Synthesis of Snowflake-shaped Co3O4 with a High Aspect Ratio as a High Capacity Anode Material for Lithium Ion Batteries. Journal of Materials Chemistry A 2015, 3, 9689-9699.
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