2012.01 - 2016.08  博士 南加利福尼亞大學土木與環境工程系環境工程專業

2010.08 - 2011.12  碩士 南加利福尼亞大學土木與環境工程系環境工程專業

2006.08 - 2010.07  學士 bevictor伟德官网環境工程專業

2020年9月至今      bevictor伟德官网  助理研究員

2016年9月-2020年9月  bevictor伟德官网 博士後

美國氣溶膠學會（AAAR）會員

Frontiers in Environmental Science（Atmosphere and Climatesection）編委

Atmos Chem Phys、Environ Sci Technol、Sci Total Environ、Atmos Environ、Aerosol Sci Technol等環境領域SCI期刊審稿人

氣溶膠測量技術及應用，氣溶膠排放特征與控制，大氣複合污染健康效應

1. 中國工程院重大攻關專項，新型冠狀病毒傳播與環境的關系及風險防控，2020-2021，骨幹

2. 國家自然科學基金重點項目，大氣中Criegee中間體實時在線檢測方法研發，2018-2021，骨幹

3. 國家重點研發計劃課題，納米顆粒物粒徑分析技術，2017-2020，主持

4. 國家自然科學基金青年項目，大氣細顆粒物的氧化潛能特性及其源解析研究，2018-2020，主持

5. 中國博士後科學基金面上項目，新型大氣細顆粒物液相捕集采樣系統研發評測，2017-2018，主持

6. 大氣重污染成因與治理攻關項目，秋冬季大氣重污染的化學過程機理研究，2017-2019，骨幹

7. 國家自然科學基金重大研究計劃重點項目，大氣細顆粒物暴露導緻慢阻肺的暴露組學與系統生物學研究，2017-2020，參與

2016 bevictor伟德官网國際博士後交流項目引進計劃（A類）

2015 教育部國家優秀自費留學生獎學金

2014 南加利福尼亞大學工程學院優秀助教獎

2013 南加利福尼亞大學工程學院優秀助研獎

2011 南加利福尼亞大學David. M. Wilson 獎學金

2010 bevictor伟德官网威立雅優秀本科生獎

發表文章：

1. Zhang, J., Cheng, H.,Wang, D., Zhu, Y., Yang, C., Shen, Y., Yu, J., Li, Y., Xu, S., Zhang, S., Song, X., Zhou, Y., Chen, J., Jiang, J., Fan, L., Wang, C. and Hao, K.*(2021). Chronic Exposure to PM2.5 Nitrate, Sulfate and Ammonium Causes Respiratory System Impairments in Mice, Environ. Sci. Technol., 2021, accepted

2. Wang, D.*, Jiang, J., Deng, J., Li, Y. and Hao, J. (2020). A Sampler for Collecting Fine Particles into Liquid Suspensions. Aerosol Air Qual. Res. 20: 654-662.

3. Wang, D., Li, Q., Shen G., Deng J., Zhou W., Hao, J. & Jiang J.* (2020). Significant ultrafine particle emissions from residential solid fuel combustion.Science of The Total Environment, 715, 136992

4. Jones, R. R.*, Hoek, G., Fisher, J. A., Hasheminassab, S.,Wang, D., Ward, M. H., Sioutas, C., Vermeulen, R. & Silverman, D. T. (2020). Land use regression models for ultrafine particles, fine particles, and black carbon in Southern California.Science of The Total Environment, 699,134234

5. Li, Z., Liu, R., Tang, C., Wang, Z.,Chen, X., Jiang, Y., Wang, C., Yuan, Y., Wang, W.,Wang, D., Chen, S., Zhang, X., Zhang, Q.& Jiang, J.*(2019). Cobalt nanoparticles and atomic sites in nitrogendooped carbon frameworks for highly sensitive sensing of hydrogen peroxide.Small, 1902860.

6. Wang, Y., Li, Z., Tang, C.,Ren, H., Zhang, Q., Xue, M., Xiong, J.,Wang, D., Yu, Q., He, Z., Wei, F. & Jiang, J.* (2019). Few-layered mesoporous graphene for high-performance toluene adsorption and regeneration.Environmental Science: Nano, 6, 3113-3122

7. Cheng, H., Wang, L.,Wang, D., Zhang, J., Cheng, L., Yao, P., Zhang, Z., Di Narzo, A., Shen, Y., Yu, J., Wang, C., Fan, L., Lu, J., Jiang, J. & Hao, K.* (2019). Bio3Air, an integrative system for monitoring individual-level air pollutant exposure with high time and spatial resolution.Ecotoxicology and Environmental Safety, 169, 756-763

8. Wang, L., Cheng, H.,Wang, D., Zhao, B., Zhang, J., Cheng, L., Yao, P., Di Narzo, A., Shen, Y., Yu, J., Li, Y., Xu, S., Chen, J., Fan, L., Lu, J., Jiang, J., Zhou, Y., Wang, C., Zhang, Z. & Hao, K.* (2019). Airway microbiome is associated with respiratory functions and responses to ambient particulate matter exposure.Ecotoxicology and Environmental Safety, 167, 269-277.

9. Li, Z., Jiang, Y., Wang, Z., Wang, W., Yuan, Y., Wu, X., Liu, X., Li, M., Dilpazir, S., Zhang, G.,Wang, D., Liu, C. & Jiang, J.* (2018). Nitrogen-rich core-shell structured particles consisting of carbonized zeolitic imidazolate frameworks and reduced graphene oxide for amperometric determination of hydrogen peroxide.Microchimica Acta, 185.

10. Li, Z., Jiang, Y., Liu, C., Wang, Z., Cao, Z., Yuan, Y., Li, M., Wang, Y., Fang, D., Guo, Z.,Wang, D., Zhang, G. & Jiang, J.* (2018). Emerging investigator series: dispersed transition metals on a nitrogen-doped carbon nanoframework for environmental hydrogen peroxide detection.Environmental Science: Nano,10, 1834-1843.

11. Li, Z., Wang, W., Cao, H., Zhang, Q., Zhou, X.,Wang, D., Wang, Y., Zhang, S., Zhang, G.*, Liu, C.*, Zhang, Y., Liu, R.* & Jiang, J.* (2017). Boron doped zif-67@graphene derived carbon electrocatalyst for highly efficient enzyme-free hydrogen peroxide biosensor.Advanced Materials Technologies, 1700224.

12. Shirmohammadi, F.,Wang, D., Hasheminassab, S., Verma, V., Schauer, J. J., Shafer, M. M. & Sioutas, C.* (2017). Oxidative potential of on-road fine particulate matter (PM_2.5) measured on major freeways of Los Angeles, CA, and a 10-year comparison with earlier roadside studies.Atmospheric Environment, 148, 102-114.

13. Sowlat, M. H.,Wang, D., Simonetti, G., Shafer, M. M., Schauer, J. J. & Sioutas, C.* (2016). Development and field evaluation of an online monitor for near-continuous measurement of iron, manganese, and chromium in coarse airborne particulate matter (PM).Aerosol Science and Technology, 50, 1309-1319.

14. Wang, D., Sowlat, M. H., Shafer, M. M., Schauer, J. J. & Sioutas, C*. (2016). Development and evaluation of a novel monitor for online measurement of iron, manganese, and chromium in ambient particulate matter (PM).Science of The Total Environment, 565:123-131

15. Krasowsky, T., McMeeking, G. R.,Wang, D., Sioutas, C. & Ban-Weiss, G. A.* (2016).Measurements of the impact of atmospheric aging on physical and optical properties of ambient black carbon particles in Los Angeles.Atmospheric Environment, 142, 496-504.

16. Shirmohammadi, F., Hasheminassab, S.,Wang, D., Schauer, J. J., Shafer, M. M., Delfino, R. J. & Sioutas, C.* (2016) The relative importance of tailpipe and non-tailpipe emissions on the oxidative potential of ambient particles in Los Angeles, CA.Faraday Discussions, 189, 361-380

17. Shirmohammadi, F., Hasheminassab, S.,Wang, D., Saffari, A., Schauer, J. J., Shafer, M. M., Delfino, R. J. & Sioutas, C.* (2015) Oxidative potential of coarse particulate matter (PM_10-2.5) and its relation to water solubility and sources of trace elements and metals in the Los Angeles Basin.Environmental Science: Processes & Impacts,17, 2110-2121.

18. Saffari, A., Hasheminassab, S.,Wang, D., Shafer, M. M., Schauer, J. J. & Sioutas, C.* (2015) Impact of primary and secondary organic sources on the oxidative potential of ultrafine particles at three contrasting locations in Los Angeles.Atmospheric Environment, 120, 286-296.

19. Wang, D., Shafer, M. M., Schauer, J. J. & Sioutas, C*. (2015). A new technique for online measurement of total and water-soluble copper (Cu) in coarse particulate matter (PM).Environmental Pollution, 199, 227-234.

20. Wang, D., Shafer, M. M., Schauer, J. J. & Sioutas, C.* (2014). Development of a technology for online measurement of total and water-soluble copper (Cu) in PM_2.5.Aerosol Science and Technology, 48(8), 864-874.

21. Hasheminassab, S., Daher, N., Saffari, A.,Wang, D., Ostro, B. D. & Sioutas, C.* (2014). Spatial and temporal variability of sources of ambient fine particulate matter (PM_2.5) in California.Atmospheric Chemistry and Physics, 14(22), 12085-12097.

22. Wang, D., Pakbin, P., Saffari, A., Shafer, M. M., Schauer, J. J. & Sioutas, C.* (2013). Development and Evaluation of a High-Volume Aerosol-into-Liquid Collector for Fine and Ultrafine Particulate Matter.Aerosol Science and Technology, 47, 1226-1238.

23. Wang, D., Pakbin, P., Shafer, M. M., Antkiewicz, D., Schauer, J. J. & Sioutas, C.* (2013). Macrophage reactive oxygen species activity of water-soluble and water-insoluble fractions of ambient coarse, PM_2.5and ultrafine particulate matter (PM) in Los Angeles. Atmospheric Environment, 77, 301-310.

24. Wang, D., Kam, W., Cheung, K., Pakbin, P. & Sioutas, C.* (2013). Development of a Two-Stage Virtual Impactor System for High Concentration Enrichment of Ultrafine, PM2.5, and Coarse Particulate Matter. Aerosol Science and Technology, 47, 231-238.

中文期刊：

1. 李雪, 蔣靖坤^*, 王東濱, 鄧建國, 賀克斌, 郝吉明. 冠狀病毒氣溶膠傳播及環境影響因素[J/OL]. 環境科學:1-13 [2021-02-03]. https://doi.org/10.13227/j.hjkx.202010033.

2. 王東濱, 薛墨, 陳小彤, 蔣靖坤^*. 一種新型軟X射線氣溶膠荷電器的開發與評測[J]. 大氣與環境光學學報, 2020, 15(06): 429-437.

3. 王東濱, 郝吉明, 蔣靖坤^*. 民用固體燃料燃燒超細顆粒物排放及其潛在健康影響[J]. 科學通報, 2019, 64(33): 3429-3440.

4. 秦瑜, 李澤晖, 王亞玲, 王東濱, 蔣靖坤^*. 石墨烯基電化學生物傳感器檢測環境中過氧化氫的研究進展[J]. 化工新型材料, 2019, 47(01): 1-5.

5. 朱小彪, 劉聰, 王東濱, 田金平, 陳呂軍^*. 厭氧缺氧沸石-膜生物反應器處理焦化廢水的運行特性研究[J]. 環境工程技術學報, 2013, 3(04): 279-285.