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助理教授

唐圆圆

0755-88015460

  • 简历
  • 科研
  • 教学
  • 发表论著

唐圆圆,女,2004年获中国海洋大学学士学位,2007年获得北京大学硕士学位,2008年入读香港大学并于2012年获得博士学位,2012年9月毕业后在在该课题组从事博士后研究工作,直至2014年9月入职南方科技大学。研究致力于结合材料科学先进技术研究并解决环境领域前沿问题,研究方向包括重金属在陶瓷基体中的迁移转化及稳定化机理、海洋垃圾微塑料的环境行为、生物质固废热解资源化过程中物相构成及耦合反应机制、典型城市固废陶瓷反应体系的物相调控及陶瓷膜研发等方面。近年,申请人主持及主要参与科研课题15项,包括国家自然科学基金、科技部国家重点研发计划、,香港研究资助局优配研究金等。在 Environmental Science & Technology, Water Research, Waste Management等环境领域顶级期刊发表论文40余篇,参编论著3部(包括Elsevier出版社1部)。担任Environmental Geochemistry and Health期刊客座编辑,应邀在相关领域的国际知名学术会议上担任学术会议专家委员会成员、分会主席等,并作特邀专题报告;申请国家专利10余项并有2项实现了技术转让。发起并组织了“第一届粤港两地环境材料学术交流会”,应邀担任Environmental Science & Technology, Water Research, Journal of Membrane Science,Waste Management等十几个权威期刊审稿人。获“2014年香港工程师学会青年工程师/研究员优秀论文奖”、南方科技大学“优秀青年科研奖”、“优秀教学奖”、“优秀书院导师”及“青年教师教学竞赛”优秀奖等荣誉。

 

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

 

研究方向
 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

 

学术任职
  “10th International Conference on Waste Management and Technology”分会主席,2015年
 “The 9th Asia-Pacific Landfill Symposium—Integrated Waste Management and Sustainable Landfilling (APALS 2016)”分会主席,2016年
 “The 2nd International Conference on Biological Waste as Resource 2017 (BWR2017)”分会主席及专家委员会成员,2017年
 “The 3rd International Conference on Biological Waste as Resource 2018 (BWR2018)”分会主席及专家委员会成员,2018年
 “2018年中国土壤学会土壤化学专业学术研讨会”分会场主席,2018年
 Environmental Geochemistry and Health期刊客座编辑
 担任Environmental Science and Technology、Water Research、Waste Management、ACS Sustainable Chemistry & Engineering等环境领域权威期刊审稿人
 美国化学学会会员
 

主要科研项目
 “铅、铬、镉在低温烧结陶瓷中的长期稳定化机理”,青年基金项目(NSF21707063),国家自然科学基金,2018.01-2020.12,¥25万;项目负责人。
 “河道底泥重金属二次污染机制和综合生态治理研究”,基础研究计划学科布局项目(JCYJ20160429191618506),深圳市科技创新委员会,2016.07-2019.07,¥200万;项目负责人。
 “城市污泥制备微晶玻璃过程中重金属的稳定化机制”,基础研究项目(JCYJ20150601155130432),深圳市科技创新委员会,2015.01-2018.05,¥30万;项目负责人,已结题。
 “生活垃圾焚烧效能提升及污染物控制关键技术研究与示范”科技部国家重点研发计划子课题,2018.12-2022.12,¥250万;课题骨干。
 “尖晶石晶体结构在城市污泥资源化过程中对重金属的稳定化机制研究”,海外高层次人才项目,申深圳市科技创新委员会,2015.09-2018.08,¥300万;项目负责人。
 “城市污泥焚烧灰渣中的重金属稳定化机制”,校长基金(FRG-SUSTC1501A-33),南方科技大学,2015,¥50万;项目负责人。
 “变废为宝:废旧锂离子电池的贵金属回收应用于高容量微纳结构电极材料的再生”,香港环境及自然保育基金,2017.05-2019.04,HK$ 45.43万(港币),共同负责人,排序第三。
 “深圳市土壤和地下水污染防治重点实验室”,2015年-2018年,¥300万;深圳市科技创新委员会,核心骨干,已结题。

 

所获荣誉
 南方科技大学“优秀青年科研奖”(2018)
 南方科技大学“优秀教学奖”(2018)
 南方科技大学致仁书院“优秀书院导师”、“优秀导师小组银钻组”(2018)
 南方科技大学“优秀教学奖” (2016)
 南方科技大学“第一届青年教师教学竞赛”优秀奖(2016)
 南方科技大学致仁书院“书院优秀导师”(2016)
 深圳市龙岗区“深龙英才”,中国(2018)
 深圳市南山区“领航人才”,中国(2017)
 香港工程师学会青年工程师/研究员优秀论文奖,香港工程师学会(HKIE),香港(2014)
 研究生奖学金,香港大学,香港(2008-2012)
 北京市优秀学生,中国(2007)
 北京大学优秀学生,中国(2006)
 北京大学“五四”奖学金,中国(2006)
 北京大学暑期实践优秀个人,中国(2006)
 国家奖学金,中国(2003)
 中国海洋大学一等奖学金,中国 (2000-2004每学年)
 中国海洋大学三好学生,中国 (2000-2004每学年)
 

研究方向
 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

讲授的本科生及研究生课程:

 

1)物理化学Physical Chemistry

2)环境材料学 Environmental Materials Science

3)固体废弃物处理处置与资源化 Solid Waste Treatment, Disposal and Recycling

4)环境监测

论文:

 

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.

20. 沈泽昊; 唐圆圆; 李道兴. 啮齿类取食的物种偏好与时空格局. 生态学报 2008, 12, 6018-6024.

21. 许玥; 沈泽昊; 吕楠; 唐圆圆; 李道新; 王功芳; 谭家林; 刘益平. 湖北三峡大老岭自然保护区光叶水青冈群落种子雨10年观测: 种子雨密度、物种构成及其与群落的关系. 植物生态学报 2012, 36, 708-716.

22. 沈泽昊; 张全发; 岳超; 赵俊; 胡志伟; 吕楠; 唐圆圆. 南水北调中线水源区土地利用/土地覆被的空间格局. 地理学报 2006, 6, 633-644.

著作

23. Tang, Y.; Shih, K. Applying Kaolinite-Mullite Reaction Series to Immobilize Toxic Metals in Environment. In Kaolinite: Occurrences, Characteristics and Applications, Nova Science Publishers, 2012.

国际会议

24. Tang, Y.; Shih, K.; Li, M.; Wu P. The Stabilization of Heavy Metals in Glass-Ceramics Fabricated by Incinerated Ash of Waterworks Sludge. Presented at the Tenth International Conference on Waste Management and Technology (ICWMT), Mianyang, Sichuan, China, 28-30 October, 2015.

25. Tang, Y.; Shih, K. Immobilization and Detoxification of Metal-Laden Sludge When Beneficially Used as Ceramic Materials. Presented at the 2nd Symposium of International Waste Working Group Asian Regional Branch (IWWG-ARB), Tongji University, Shanghai, China, 13-14 April, 2015.

26. Tang, Y.; Shih, K. Quantitative Analysis of Copper Transformation and Immobilization during “Waste-to-Resource” Processes. Poster at the 21st Annual Conference of Hong Kong Institution of Science, Hong Kong, 23 November, 2013

27. Tang, Y.; Shih, K. Using Al/Fe Rich Sludge Residues from Water and Wastewater Treatment Processes to Immobilize Copper Electroplating Waste. Presented at the 2nd International Conference on Solid Waste 2013: Innovation in Technology and Management (ICSWHK 2013), Hong Kong Baptist University, Hong Kong, 5-9 May, 2013.

28. Tang, Y.; Shih, K.; Fang, H.H.P. Mechanisms of Stabilizing Hazardous Metals through Thermal Reactions with Clay Materials. Presented at the 15th Mainland-Taiwan Environmental Protection Conference, Guilin, China, 3-4 November, 2012.

29. Tang, Y.; Shih, K. Zinc Stabilization during the Sintering of Simulated Zinc-Laden Sludge with Aluminum-Rich Ceramic Precursors. Presented at the 14th Mainland-Taiwan Environmental Protection Conference, Tainan, Taiwan, 5-6 November, 2011.

30. Tang, Y.; Shih, K.; Zhang, L. Copper Stabilization and Detoxication via Copper Aluminate Spinel Formation. Presented at International Conference and Workshops of the Society for Environmental Geochemistry and Health (SEGH) on Environmental Quality and Human Health, Galway, Ireland, 27 June- 02 July, 2010.

31. Tang, Y.; Shih, K.; Lu, X.; Zhang, L. Potential of Using Copper Aluminate Spinel to Stabilize Copper-Bearing Sludge. Presented at the Society of Environmental Toxicology and Chemistry (SETAC) Asia/Pacific Annual Meeting, Guangzhou, China, 4-7 June 2010.

32. Tang, Y.; Shih, K. Copper Stabilization and Detoxification of by Aluminate Spinel. Presented at the 13th Mainland-Taiwan Environmental Protection Conference, Chongqing, China, 2010.

33. Shih, K.; Tang, Y. Quantitative X-Ray Diffraction (QXRD) Technique for Waste Beneficial Uses and Resources Recovery Technologies. Presented at International Conference on Solid Wastes 2015: Knowledge Transfer for Sustainable Resource Management (ICSWHK2015), Hong Kong, 19-23 May, 2015.

34. Shih, K.; Tang, Y. Leaching Behavior and Stabilization Mechanisms of Nickel and Copper in Ceramic Matrix. Presented at The 247th American Chemical Society (ACS) National Meeting, Dallas, 16-20 March, 2014.

35. Shih, K.; Tang, Y. A “Waste-to-Resource” Method on Using Waste Aluminum and Iron in Sludge as Ceramic Materials. Accepted by SUM 2014, Second Symposium on Urban Mining, Old Monastery of St Augustine, Bergamo, Italy, 19-21 May, 2014.

36. Shih, K.; Tang, Y.; Liao, C. Metal Stabilization Mechanisms in the Beneficial Use of Ash/Sludge Residues for Ceramic Products. Presented at SARDINIA 2013, The 14th International Waste Management and Landfill Symposium, Cagliari, Italy, 30 September-4 October, 2013.

37. Shih, K.; Tang, Y. Copper Stabilization in Beneficial Use of Waterworks Sludge and Copper-laden Electroplating Sludge for Ceramic Materials. Presented at the 1st Asian Regional Branch of International Waste Working Group (IWWG-ARB) Symposium, Hokkaido University, Sapporo, Japan, 18-21 March, 2013.

38. Shih, K.; Tang, Y. Beneficial Utilization of Waterworks Sludge for Zinc Stabilization. Presented at the 27th International Conference on Solid Waste Technology and Management, Philadelphia, Pennsylvania, 11-14 March 2012.

39. Shih, K.; Tang, Y.; Liao, C. How Hazardous Metals are Stabilized through the Thermal Reaction with Clay Materials? Presented at SARDINIA 2011, The 13th International Waste Management, Cagliari, Italy, 3-7 October, 2011.

40. Shih, K.; Tang, Y.; Liao, C. Transform Nickel and Copper in Waste Solids into Spinel Structures. Presented at The 6th International Symposium on Chemical-Environmental-Biomedical Technology, Hsinchu, Taiwan, 4-7 September, 2011.

41. Shih, K.; Tang, Y.; Liao, C. Phase Transformation of Metals in Reusing Sludge for Ceramic Products: Examples of Nickel and Copper. Global Sustainability and Environmental Engineering & Science: Implications for Research, Education and Practice, Tampa, Florida, 10-12 July, 2011.

42. Shih, K.; Tang, Y.; Liao, C. Potential Beneficial Uses of Water Treatment Sludge Incineration Ash in Hong Kong, Presented at the 26th International Conference on Solid Waste Technology and Management, Philadelphia, Pennsylvania, 27-30 March 2011.

43. Shih, K.; Tang, Y.; Liao, C. Stabilize Nickel and Copper in Ceramic Matrix: Phase Transformation and Product Leachability, Presented at the 26th International Conference on Solid Waste Technology and Management, Philadelphia, Pennsylvania, 27-30 March 2011.

44. Shih, K.; Tang, Y.; Wang, Y.; He, Y.; Jiang, X. Stabilized Nickel Phases via Aluminum- and Iron-Rich Ceramic Precursors. Presented at the Society of Environmental Toxicology and Chemistry (SETAC) Asia/Pacific Annual Meeting, Guangzhou, China, 4-7 June 2010.

邀请报告

45. Tang, Y. A “Waste-to-Resource” Strategy for Metal Stabilization in Ceramic Matrix during Thermal Treatment Processes. 12 December, 2013, Peking University Shenzhen Graduate School, Shenzhen, China.

46. Tang, Y. Beneficial Metal Stabilization Mechanisms in Using Waste Sludge for Ceramic Materials. 22 October, 2013, South University of Science and Technology of China, Shenzhen, China.

47. Tang, Y. Mechanisms of Thermally Stabilizing Copper and Zinc Waste in Ceramic Matrix. 28 June, 2012, Peking University Shenzhen Graduate School, Shenzhen, China.

专利

48. 张作泰, 唐圆圆. 一种河道淤泥疏浚装置. 申请号:201620345385.X

49. 张作泰, 唐圆圆. 一种使用河道淤泥制备陶粒的方法. 申请号:201610255143.6