林煜棋

林煜棋

   (Yu-Chi Lin)

职称:教授 (2018.04 ~ 至今)

电子邮件信箱: yuchilin@nuist.edu.cn

yclin1226@gmail.com

专长

大气化学

气溶胶化学

大气污染物测量

稳定同位素分析与应用

 

学历

2006台湾地区国立中兴大学环境工程学系博士

1999台湾地区国立中兴大学环境工程学系硕士

1997台湾地区逢甲大学环境科学与工程学系学士

 

工作经历

2018.04-至今 南京信息工程大学应用气象学院,教授

2017.12-2018.03 南京信息工程大学应用气象学院,校聘教授

2017.01-2017.12 台湾地区环境保护署毒物及化学物质局,高级环境技术师

2014.08-2017.01 台湾地区中央研究院环境变迁中心,助理研究学者

2013.09-2016.06 台湾地区明志科技大学环境与卫生安全工程系,兼任助理教授

2013.09-2016.06 台湾地区逢甲大学通识教育中心,兼任助理教授

2013.08-2014.07 台湾地区中央研究院环境变迁中心,博士后

2011.08-2013.07 台湾地区中央研究院环境变迁中心,助理研究学者

2009.03-2010.02 美国纽约州立大学阿尔巴尼分校大气科学研究中心,博士后

2007.01-2011.07 台湾地区中央研究院环境变迁中心,博士后

 

学术荣誉

2016 年荣获台湾地区科技部补助延揽助理研究学者

2015 年荣获台湾地区科技部补助延揽助理研究学者

2014 年荣获台湾地区科技部补助延揽助理研究学者

2013 年荣获台湾地区2014年度空气污染控制技术研讨会最佳论文奖

2012 年荣获台湾地区科技部补助延揽助理研究学者

2011 年荣获台湾地区科技部补助延揽助理研究学者

2010 年荣获台湾地区国防工业训储制度『绩优人员』

2009 年荣获台湾地区环境工程学会九十七年度学术论文奖

 

主持或参加科研项目

1.台湾地区科研项目,东亚地区大气悬浮微粒铍-7与铅-210活度之时空分布与其应用在大气传输行为之探讨(II),2015/08-2017/07,结题,主持

2.台湾地区环保署科研项目,以同位素分析鉴别细悬浮微粒(PM2.5)污染来源先期计划」, 2015/08-2016/07,结题,参与。

3.台湾地区环保署科研项目,台湾中部街尘及河床沙尘特征元素指针及来源鉴识技术鉴定,结题,主持。

4.台湾地区科研项目,东亚地区大气悬浮微粒铍-7与铅-210活度之时空分布与其应用在大气传输行为之探讨,2014/08-2015/07,结题,主持。

5.台湾地区环保署科研项目,悬浮微粒污染源特征指针技术之建置与评析研究案」,2014/04-2014/12,结题,主持。

  1. 台湾地区科研项目,平流层-对流层交换对低纬度山区臭氧之影响及其二氧化碳同位素特征之研究(II),2012/08–2013/07,结题,主持。
  2. 台湾地区科研项目,平流层-对流层交换对低纬度山区臭氧之影响及其二氧化碳同位素特征之研究,2011/08 – 2012/07,结题,主持。

 

期刊论文(*corresponding author):

  1. Xiang, Y.-K.; Dao, X.;  Gao, M.;  Lin, Y.-C.;  Cao, F.;  Yang, X.-Y.; Zhang, Y.-L.*, Nitrogen isotope characteristics and source apportionment of atmospheric ammonium in urban cities during a haze event in Northern China Plain. Atmospheric Environment 2022, 269, 118800.
  2. Bao, M.; Zhang, Y.-L.*;  Cao, F.;  Lin, Y.-C.;  Hong, Y.;  Fan, M.;  Zhang, Y.;  Yang, X.; Xie, F., Light absorption and source apportionment of water soluble humic-like substances (HULIS) in PM2. 5 at Nanjing, China. Environmental Research 2022, 206, 112554.
  3. Song, W.; Cao, F.;  Lin, Y.-C.;  Haque, M. M.;  Wu, X.;  Zhang, Y.;  Zhang, C.;  Xie, F.; Zhang, Y.-L.*, Extremely high abundance of polycyclic aromatic hydrocarbons in aerosols from a typical coal-combustion rural site in China: Size distribution, source identification and cancer risk assessment. Atmospheric Research 2021, 248 (15), 105192.
  4. Mozaffar, A.; Zhang, Y.-L.*;  Lin, Y.-C.;  Xie, F.;  Fan, M.-Y.; Cao, F., Measurement report: High contributions of halocarbon and aromatic compounds to atmospheric volatile organic compounds in an industrial area. Atmospheric Chemistry and Physics 2021, 21 (23), 18087-18099.
  5. Lin, Y.-C.; Zhang, Y.-L.*;  Yu, M.;  Fan, M.-Y.;  Xie, F.;  Zhang, W.-Q.;  Wu, G.;  Cong, Z.; Michalski, G., Formation Mechanisms and Source Apportionments of Airborne Nitrate Aerosols at a Himalayan-Tibetan Plateau Site: Insights from Nitrogen and Oxygen Isotopic Compositions. Environmental Science & Technology 2021, 55 (18), 12261-12271.
  6. Bao, M., Zhang, Y.-L.*, Cao, F., Lin, .Y.-C., Wang, Y., Liu, X., Zhang, W., Fan, M., Xie, F., Cary, R., Dixon, J., Zhou, L., 2021. Highly time-resolved characterization of carbonaceous aerosols using a two-wavelength sunset thermal/optical carbon analyzer. Atmospheric Measurement Techniques, 14, 4053-4068(SCI, 2019 IF=3.668)
  7. Lin, Y.-C., Zhang, Y.-L.* Xie, F., Fan, M.-Y., Liu, X., 2020. Substantial decreases of light absorption, concentrations and relative contributions of fossil fuel to light-absorbing carbonaceous aerosols attributed to the COVID-19 lockdown in eastern China. Environmental Pollution, 1166150 (SCI, 2019 IF=6.792).
  8. Fan, M.-Y., Zhang, Y.-L.*, Lin, Y.-C., Sun, Y., Qui, Y., Cao, F., Fu, P., 2021. Specific source health risk analysis on metallic elements in PM5 during the wintertime, in Beijing, China. Atmospheric Environment, 118112 (SCI, 2019 IF=4.039)
  9. Fan, M.-Y., Zhang, Y.-L.*, Lin, Y.-C., Xie, F., Li, L., Hu, J., Mozaffar, A., Cao, F., 2021. Source apportionments of atmospheric volatile organic compounds in Nanjing, China during high ozone pollution season. Chemosphere, 128025 (SCI, 2019 IF=5.778).
  10. Fan, M.-Y., Zhang, Y.-L.*, Lin, Y.-C., Li, J., Chen, H., An, N., Sun, Y., Qui, Y., Cao, F., Fu, P., 2020. Roles of sulfur oxidation pathways in the variability in stable sulfur isotopic composition of sulfate aerosols at an urban site in Beijing, China. Environmental Science and Technology Letters, 12, 883-888 (SCI, 2019 IF=7.678).
  11. Lin, Y.-C., Zhang, Y.-L.*, Xie, F., Zhang, W., Fan, M.-Y., Lin, Z., Rella, C. W., Hoffnagle, J. A. 2020. Development of a monitoring system for online measurements of stable carbon isotope ratios in atmospheric carbonaceous aerosols: optimized methods and application to field measurements. Analytical Chemistry, 92, 14373-14382. (SCI. 2019 IF=6.785)
  12. 谢锋、林煜棋、宋文怀、鲍孟盈、章炎麟*,南京北郊黑炭气溶胶分布特征及来源,环境科学,41,4392-4401。
  13. Song, W., Zhang, Y.-L.*, Cao, F., Lin, Y.-C., Haque, M. M., Wu, X., Zhang, Y., Zhang, C., Xie, F., 2020. Extremely high abundance of polycyclic aromatic hydrocarbons in aerosols from a typical coal-combustion rural site in China: size distribution, source identification and cancer risk assessment. Atmospheric Research, 105192, (SCI, 2019 IF=4.676).
  14. Fan, M.-Y., Zhang, Y.-L.*, Lin, Y.-C., Cao, F., Zhao, Z.-Y., Sun, Y., Qiu, Y., Fu, P., Wang, Y., 2020. Changes of emission source to nitrate aerosols in Beijing after the clean air actions: evidence from dual isotope compositions. Journal of Geophysical Research Atmospheres. 125 (SCI, 2019 IF=3.820)
  15. Lin, Y.-C., Zhang, Y.-L.*, Song, W., Yang, X., Fan, M.-Y., 2020. Specific sources of health risks caused by size-resolved PM-bound metals in a typical coal burning city of northern China during the winter haze event. Science of the total Environment, 138651 (SCI, 2019 IF=6.551).
  16. Shao, S.-C., Zhang, Y.-L.*, Chang, Y.-H., Cao, F., Lin, Y.-C., Mozaffar, A., Hong, Y.-H., Online characterization of a large but overlooked human excreta source of ammonia in China’s urban atmosphere. Atmospheric Environment, 230, 117459. (SCI, 2019 IF=4.039)
  17. Mozaffar, A., Zhang, Y.,* Fan, M., Cao, F., Lin, Y.-C., Characteristics of summertime VOCs and their contributions to O3 and SOA formation in a suburban area of Nanjing, China. Atmospheric Research, 240, 104923. (SCI, 2019 IF=4.676)
  18. Lin, Y.-C., Zhang, Y.-L.*, Fan, M.-Y., Bao, M., 2020. Heterogeneous formation of particulate nitrate under ammonium-rich regimes during the high PM5 events in Nanjing, China. Atmospheric Chemistry and Physics, 20, 3999-4011 (SCI, 2019 IF=5.414).
  19. 杨笑影、曹芳*、林煜棋、章炎麟,2020。南京市北郊降水无机离子和有机酸的化学特征与来源分析,环境科学,41,2519-2527。
  20. 曹梦瑶、林煜棋*、章炎麟*,2020。南京工业区秋季大气挥发性有机物污染特征与来源解析,环境科学,41,2565-2576。
  21. Lin, Y.-C.,* Hsu, S.-C., Lin, S.-H., Huang, Y.-Y., 2020. Metallic elements emitted from industrial sources in Taiwan: implication for source identification using airborne PM. Atmospheric Pollution Research, 11, 766-755 (SCI, 2019 IF=3.527)
  22. Dao, X., Lin, Y.-C.(co-first author), Cao, F., Di, S.-Y., Hong, Y., Xing, G., Li, J., Fu, P., Zhang, Y.-L.*, 2019. Introduction to the national aerosol chemical composition monitoring network of China: objectives, current status and outlook. Bulletin of the America Meteorological Society, 101, ES337-ES351. (SCI, 2019 IF=9.384)
  23. Chang, Y., Zhang, Y.*, Li, J., Tian, C., Song, L., Zhia, X., Zhang, W., Huang, T., Lin, Y.-C., Zhu, C., Fang, Y., Lehmann, M. F., Chen, J., 2019. Isotopic constrains on the atmospheric sources and formation of nitrogen species in clouds influenced by biomass burning. Atmospheric Chemistry and Physics, 19, 12221-12234. (SCI, 2019 IF=5.414)
  24. Zhang, W., Zhang, Y.-L.*, Cao, F., Xiang, Y., Bao, M., Liu, X., Lin, Y.-C., High time-resolved of stable carbon isotope composition in water soluble organic aerosols: method optimization and a case study during winter haze in eastern China. Atmospheric Chemistry and Physics, 19, 11071-11087.(SCI, 2019 IF=5.414)
  25. 邵生成、常运华、曹芳、林煜棋、范美益、谢鋒、洪一航、章炎麟*,2019。南京城市大气氨-铵的高频演化及其气粒转化机制。环境科学,
  26. Fan, M.-Y., Zhang, Y.-L.*, Lin, Y.-C., Chang, Y.-H., Cao, F., Zhang, W.-Q. Hu, Y.-B., Bao, X.-Y., Liu, X.-Y., Zhai, X.-Y., Lin, X., Zhao, Z.-Y., Song, W.-Y., 2019. Isotope based source apportionments of nitrogen-containing aerosols: a case study in an industrial city in China. Atmospheric Environment, 212, 96-105. (SCI, 2019 IF=4.039)
  27. Jung, C.-C., Chou, C. C.-K.*, Lin, C.-Y., Shen, C.-C., Lin, Y.-C., Huang, Y.-T., Tsai, C.-Y., Yao, P.-H., Huang, C.-R., Huang, W.-R., Chen, M.-C., Huang, S.-H., Chang, S.-C., 2019. C-Sr-Pb isotopic characteristics of PM5 transported on the East-Asian continental outflows. Atmospheric Research, 223, 88-97. (SCI, 2019 IF=4.676)
  28. Lin, Y.-C., Hsu, S.-C., Lin, C.-Y., Lin, S.-H., Huang, Y.-T., Zhang, Y.-L.*, 2018. Enhancements of particulate arsenic over the subtropical free troposphere: impact by South Asian biomass burning. Atmospheric Chemistry and Physics, 18, 13865-23879. (SCI, 2019 IF=5.414)
  29. Lin, Y.-C.*, Hsu, S.-C., Chou, C.-K C., Zhang, R., Wu, F., Kao, S.-J., Huang, C.-H., Lin, S.-H., Luo, L., 2016. Wintertime Haze Deterioration in Beijing by Industrial Pollution Deduce from Trace Metal Fingerprints and Enhance Health Risk by Heavy Metals. Environmental Pollution, 208, 284-293. (SCI, 2019 IF=6.792)
  30. Lin, Y.-C.*, Tsai, C.-J., Wu, Y.-C., Zhang, R., Huang, Y.-T., Lin, S.-H., Hsu, S.-C.*, 2015. Characteristics of trace metals in traffic-derived particles in Hsuehshan Tunnel, Taiwan: size distribution, potential source, and fingerprinting metal ratio Atmospheric Chemistry and Physics, 15, 4117-4130.(SCI, 2019 IF=5.414)
  31. Hsu, S.-C., Gong, G.-C., Shiah, F.-K., Hung, C.-C., Kao, S.-J., Zhang, R., Chen, W.-N., Chen, C.-C., Chou, C. C.-K., Lin, Y.-C*, Lin, F.-J., Lin, S.-H., 2014. Sources, Solubility, and Acid Processing of Aerosol Iron and Phosphorus over the South China Sea: East Asian Dust and Pollution Outflows vs. Southeast Asian Biomass Burning. Atmospheric Chemistry and Physics Discussions, 14, 21433-21472.
  32. Lin, Y.-C.*, Huh, C.-A., Hsu, S.-C.,Lin C.-Y. Liang, M.-C., Lin, P.-H., 2014. Stratospheric influence on the concentration and seasonal cycle of lower tropospheric ozone: Observation at Mount Hehuan, Taiwan. Journal of Geophysical Research-Atmospheres, doi:10.1002/2013JD020736. (SCI, 2019 IF=3.820 )
  33. Lin, Y.C.*Lin, C.Y., Lin, P.H., Engling, G., Lin, Y.-C., Lan, Y.-Y., Chang, C.W. June, Kuo, T.-H., Hsu, W.T., Ting, C.-C., 2013. Influence of Southeast Asian Biomass Burning on Ozone and Carbon Monoxide over Subtropical Taiwan. Atmospheric Environment, 64, 358-365. (SCI, 2019 IF=4.039)
  34. 蓝咏耀、张咏翔、庄秉杰*林煜棋、陈思维、陈勇达、王奕智、杜佳颖,2012。打鸟埤人工湿地CO2通量推估即四季变化趋势,湿地学刊1, 21-32。
  35. Lin, Y.C.*, Schwab, J.J., Demerjian, K.L., Bae, M.-S., Chen, W.-N., Sun, Y., Zhang, Q., Hung, H.-M., Perry, J., 2012. Summertime formaldehyde observations in New York City: Ambient levels, sources and its contribution to HOx radicals. Journal of Geophysical Research-Atmospheres, 117, doi:10.1029/2011JD016504. (SCI, 2019 IF=3.820)
  36. Sun, Y.-L., Zhang, Q.*, Schwab, J.J., Chen, W.-N. Bae, M.-S., Hung, H.-M., Lin, Y.-C., Ng, N.L., Jayne, J., Massoli, P., Williams, L.R., Demerjian, K.L., Characterization of Near-highway Submicron Aerosols in New York City with a High-Resolution Time-of-Flight Aerosol Mass Spectrometer. Atmospheric Chemistry and Physics, 12, 2215-2227. (SCI, 2019 IF=5.414)
  37. Sun, Y. L., Zhang, Q.*, Schwab, J. J., Chen, W. N., Bae, M. S., Lin, Y. C., Hung, H. M., Demerjian, K. L., 2011. A Case Study of Aerosol Processing and Evolution in Summer in New York City. Atmospheric Chemistry and Physics, 11, 12737-12750. (SCI, 2019 IF=5.414)
  38. Sun, Y.-L., Zhang, Q.*, Schwab, J.J., Demerjian, K.L., Chen, W.-N., Bae, M.-S., Hung, H.-M., Hogrefe, O., Frank, B., Lin, Y.C., 2011. Characterization of the Sources and Processes of Organic and Inorganic Aerosols in New York City with a High-Resolution Time-of-Flight Aerosol Mass Spectrometer. Atmospheric Chemistry and Physics, 11, 1581 – 1602. (SCI, 2019 IF=5.414)
  39. Lin, Y.C.*, Lin, C.Y., Lin, P.H., Engling, G., Kuo, T. H., Hsu, W.T., Ting, C.C., 2011. Observations of Ozone and Carbon Monoxide at Mei-Fong (2269 m a.s.l.), Taiwan: Seasonal Variation and Influence of Long-range Transport. Science of the Total Environment 409, pp.3033 – 3042. (SCI, 2019 IF=6.551)
  40. Lin, Y.C., Cheng, M.T.*, Lin, W.H., Lan, Y.Y., Tsuang, B.-J., 2010. Causes of the Elevated Nitrate Aerosol Levels during Episodic Days in Taichung Urban Area, Taiwan. Atmospheric Environment, 44, 1632-1640. (SCI, 2019 IF=4.039)
  41. Lin, Y.C.*, Lin, C.Y.,Hsu, W.T., 2010. Observations of Carbon Monoxide Mixing Ratios at a Mountain Site in Central Taiwan during the Asian Biomass Burning Season. Atmospheric Research, 95, 270-278. (SCI, 2019 IF=4.676)
  42. Ou-Yang, C.F., Lin, Y.C., Lin, N.H., Lee, C.T., Sheu, G.R., Kam, S.H., Wang, J.L.*, 2009. Inter-comparison of Three Instruments for Measuring Regional Background Carbon Monoxide. Atmospheric Environment, 49, pp. 6449-6453. (SCI, 2019 IF=4.039)
  43. Chio, C.P.*, Cheng, M.T., Lin, Y.C., Liao, C.M., 2009. Empirical models to predict parsimoniously the mass and number concentrations of ultrafine particulate in ambient atmosphere. Bulletin of Environmental Contamination and Toxicology, 83, doi:10.1007/s00128-009-9821-6. (SCI, 2019 IF=1.657)
  44. Lin, Y.C.*, Cheng, M.T., Chio, C.P., Kuo, C.Y., 2009. Elemental and Organic Carbon Aerosol Measurements at Seven Coastal, Urban and Inland Sites in Central Taiwan. Environmental Forensics, 10, pp. 7-17. (SCI, 2019 IF=0.890)
  45. Cheng, M.T.*, Horng, C.L., Su, Y.R., Lin, L.K., Lin, Y.C., Chou, C.C.K., 2009. Particulate matter characteristics during agricultural waste burning in Taichung City, Taiwan. Journal of Hazardous Materials, 165, 187-192. (SCI, 2019 IF=9.038)
  46. Cheng, M.T.*, Chen, S.P., Lin, Y.C., Jung, C.C., Horng, C.L., 2008. Concentrations and Formation Rates of Ambient Nitrous Acid in Taichung City, Taiwan. Environmental Engineering Science, 25, 1-8. (SCI, 2019 IF=1.681)
  47. Lin, Y.C.*Lan, Y.Y., Tsuang, B.J., 2008. Long-term Spatial Distributions and Trends of Ambient CO Concentrations in Central Taiwan Basin. Atmospheric Environment, 42, 4320-4331(SCI, 2019 IF=4.039)
  48. Cheng, M.T.*, Horng, C.L., Lin, Y.C., Characteristics of atmospheric aerosol and acidic gases from urban and forest sites in central Taiwan. Bulletin of Environmental Contamination and Toxicology, 79, 674-677. (SCI, 2019 IF=1.657)
  49. Lin, Y.C., Cheng, M.T.*, 2007. Evaluation of Formation Rates of NO2 to Gaseous and Particulate Nitrate in the Urban Atmosphere. Atmospheric Environment, 1903 – 1910. (SCI, 2019 IF=4.039)
  50. Cheng, M.T.*Lin, Y.C., Lee, W.T., Liu, S.C., 2007. Effects of Transported Asian Dust Storm on Aerosol Composition and Size Distribution in Central Taiwan in 2002. Journal of Environmental Engineering and Management, 17, pp. 189 – 196.
  51. 郑曼婷、林煜棋、林立凯,2006。大陆沙尘暴对台中都会区大气悬浮微粒物化特性之影响分析,高原气象,25 增刊, 33-39。
  52. Lin, Y.C., Cheng, M.T.*, Ting, W.Y., Yeh, C.R., 2006. Characteristics of Gaseous HNO2, HNO3, NH3 and Particulate Ammonium Nitrate in an Urban City of Central Taiwan. Atmospheric Environment, 40, 4725 – 4733. (SCI, 2019 IF=4.039)
  53. Cheng, M.T.*Lin, Y.C., Chio, C.P., Wang, C.F., Kuo, C.Y., 2005. Characteristics of Aerosols Collected in Central Taiwan during an Asian Dust Event in Spring 2000. Chemosphere, 61, pp. 1439 – 1450. (SCI, 2019 IF=5.778)
  54. 郑曼婷*林煜棋、李蔚德、许世杰、刘绍臣,2004。不同大陆沙尘事件对台湾中部地区大气气胶化学组成的影响,干旱区资源与环境, 18,142-147。
  55. 郑曼婷*林煜棋、邱嘉斌、王竹方、郭崇义,2004。2000年春季沙尘暴过境大气微粒的元素组成及Ca/Al比值特征,干旱区资源与环境,18,162-167。
  56. Tsuang, B.J.*, Lee, C.T., Cheng, M.T., Lin N.H., Lin Y. C., Chen, C.L., Peng, C.M, Kuo, P.H., 2003. Quantification on the Source/Receptor Relationships of Primary Pollutants and Secondary Aerosols by Gaussian Plume Trajectory Model: Part III – Asian Dust-storm Periods. Atmospheric Environment, 37, 4007 – 4017. (SCI, 2019 IF=4.039)