科研成果 by Type: 期刊论文

2020
Wang HC, Chen XR, Lu* KD, Tan ZF, Ma XF, Wu ZJ, Li X, Liu YH, Shang DJ, Wu YS, et al. Wintertime N2O5uptake coefficients over the north china plain. Science Bulletin [Internet]. 2020. 访问链接
Wang HC #, Chen XR #, Lu KD *, Hu RZ *, Li ZY, Wang HL, Ma XF, Yang XP, Chen SY, Dong HB, et al. Nighttime Chemistry in a suburban site during the EXPLORE-YRD campaign in 2018. Atmos. Environ. [Internet]. 2020. 访问链接
邱婉怡, 刘禹含*, 谭照峰, 陈肖睿, 陆克定*, 张远航. 基于中国四大城市群计算的最大增量反应活性. 科学通报. 2020;65(7):610-621.PKU 
Yu D #, Tan ZF # *, Lu KD, Ma XF, Li X, Chen SY, Zhu B, Lin L, Li Y, Qiu P, et al. Sources and abatement mechanisms of VOCs in southern China. Atmos. Environ. 2020;224:1-13.
2019
Qiu WY, Li SL, Liu YH *, Lu KD *. Petrochemical and Industrial Sources of Volatile Organic Compounds Analyzed via Regional Wind-Driven Network in Shanghai. Atmosphere [Internet]. 2019;10(760). 访问链接
Lu KD #, Guo S #, Tan ZF, Wang HC, Shang DJ, Liu YH, Li X, Wu ZJ, Hu M, Zhang YH. Exploring atmospheric free-radical chemistry in China: the self-cleansing capacity and the formation of secondary air pollution. National Science Review. 2019;6 :579-594.
杨新平, 王海潮, 谭照峰, 陆克定, 张远航. OH自由基总反应性的实地测量. 化学学报. 2019;(77):613-624.PKU 
Lu K, Fuchs H, Hofzumahaus A, Tan Z, Wang H, Zhang L, Schmitt SH, Rohrer F, Bohn B, Broch S, et al. Fast Photochemistry in Wintertime Haze: Consequences for Pollution Mitigation Strategies. Environmental Science & Technology [Internet]. 2019. 访问链接
Qiu X, Ying Q, Wang S, Duan L, Wang Y, Lu K, Wang P, Xing J, Zheng M, Zhao M, et al. Significant impact of heterogeneous reactions of reactive chlorine species on summertime atmospheric ozone and free-radical formation in north China. Science of the Total Environment [Internet]. 2019;2019. 访问链接
Wang H, Lu K. Monitoring Ambient Nitrate Radical by Open-Path Cavity-Enhanced Absorption Spectroscopy. Analytical Chemistry [Internet]. 2019;2019(91):10687-10693. 访问链接
Zou Q, Song H, Tang M, Lu K. Measurements of HO2 uptake coefficient on aqueous (NH4)2SO4 aerosol using aaerosol flow tube with LIF system. Chinese Chemical Letters [Internet]. 2019. 访问链接
Tan ZF, Lu KD, Hofzumahaus A, Fuchs H, Bohn B, Holland F, Liu YH, Rohrer F, Shao M, Sun K, et al. Experimental budgets of OH, HO2, and RO2 radicals and implications for ozone formation in the Pearl River Delta in China 2014. Atmospheric Chemistry and Physics [Internet]. 2019;(19):7129-7150. 访问链接
Ma XF, Tan ZF, Lu KD, Yang XP, Liu YH, Li SL, Li X, Chen SY, Novelli A, Cho CM. Winter photochemistry in Beijing: Observation and model simulation of OH and HO2 radicals at an urban site. Science of the Total Environment [Internet]. 2019;(685):85-95. 访问链接
Shi ZB, T V, Kotthaus S, Harrison RM, Grimmond S, Yue SY, Zhu T, Lee J, Han YQ, Demuzere M. Introduction to the special issue “In-depth study of air pollution sources and processes within Beijing and its surrounding region (APHH-Beijing)”. Atmospheric Chemistry and Physics [Internet]. 2019;(19):7519-7546. 访问链接
Chen X, Wang H, Liu Y, Su R, Wang H, Lou S, Lu K. Spatial characteristics of the nighttime oxidation capacity in the Yangtze River Delta, China. Atmospheric Environment [Internet]. 2019;208:150-157. 访问链接
Tan ZF, Lu KD, Jiang MQ, Su R, Wang HL, Lou SR, Fu QY, Zhai CZ, Tan QW, Yue DL, et al. Daytime atmospheric oxidation capacity in four Chinese megacities during the photochemically polluted season: a case study based on box model simulation. Atmospheric Chemistry and Physics [Internet]. 2019;19(6):3493-3513. 访问链接
Song M, Liu X, Zhang Y, Shao M, Lu K, Tan Q, Feng M, Qu Y. Sources and abatement mechanisms of VOCs in southern China. Atmospheric Environment [Internet]. 2019;201:28-40. 访问链接
Liu Y, Lu K, Li X, Dong HB, Tan Z, Wang H, Zou Q, Wu Y, Zeng L, Min K-E, et al. A Comprehensive Model Test of the HONO Sources Constrained to Field Measurements at Rural North China Plain. Environmental Science & Technology [Internet]. 2019. 访问链接
2018
梁昱, 刘禹含, 王红丽, 李莉, 段玉森, 陆克定*. 基于主成分分析的上海春季近地面臭氧污染区域性特征研究. 环境科学学报. 2018;38(10):3807-3815.PKU 
Tan ZF, Lu KD, Zhang YH. Explicit diagnosis of the local ozone production rate and the ozone-NOx-VOC sensitivities. Science Bulletin [Internet]. 2018;(63):1067-1076. 访问链接

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