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(1) Xin Jinyuan, et al., The Campaign on Atmospheric Aerosol Research Network of China: CARE-China; Bull. Amer. Meteor. Soc.; 2015, 96(7): 1137–1155.
(2) Xin Jinyuan, et al., The observation-based relationships between PM2.5 and AOD over China; J. Geophys. Res. Atmos.; 2016, 121(18): 10701-10716.
(3) Xin Jinyuan, et al., Aerosol direct radiative forcing in desert and semi-desert regions of northwestern China; Atmospheric Research; 2016, 171: 56-65.
(4) Xin Jinyuan, et al., Reductions of PM2.5 in Beijing–Tianjin–Hebei Urban Agglomerations during the 2008 Olympic Games; Adv. Atmos. Sci.; 2012, 29(6): 1330-1342.
(5) Xin Jinyuan, et al., The empirical relationship between the PM2.5 concentration and aerosol optical depth over the background of North China from 2009 to 2011; Atmospheric Research; 2014, 138: 179-188.
(6) Jinyuan Xin, et al., Optimized Broadband Extinction Method for Retrieving 500 nm AOD with Long-Term Direct Solar Radiation: Model Test and Application, Aerosol and Air Quality Research, 2017, 17(12): 3220-3229.
(7) Xin Jinyuan, et al., Trends in aerosol optical properties over the Bohai Rim in Northeast China from 2004 to 2010; Atmospheric Environment; 2011, 45: 6317-6325.
(8) Xin Jinyuan, et al., Aerosol optical properties affected by a strong dust storm in Central and Northern China; Adv. Atmos. Sci.; 2010, 27(3): 562-574.
(9) Xin Jinyuan, et al., Variability and reduction of atmospheric pollutants in Beijing and its surrounding area during the Beijing 2008 Olympic Games; Chinese Sci Bull; 2010, 55(18):1937-1944.
(10) Xin Jinyuan, et al., Aerosol optical depth (AOD) and Angstrom exponent of aerosols observed by the Chinese Sun Hazemeter Network from August 2004 to September 2005; J. Geophys. Res.; 2007, 112(D5): 1703-1711.
(11) Xin Jinyuan, et al., Optical properties and size distribution of dust aerosols over the Tengger Desert in Northern China; Atmospheric Environment; 2005, 39:5971-5978.
(12) Yongjing Ma; Jianhuai Ye; Jinyuan Xin*; Wenyu Zhang; Vilà-Guerau de Arellano Jordi; Shigong Wang; Dandan Zhao; Lindong Dai; Yongxiang Ma; Xiaoyan Wu; Xiangao Xia; Guiqian Tang; Yuesi Wang; Pengke Shen; Yali Lei; and Scot T. Martin* (2020). The Stove, Dome, and Umbrella Effects of Atmospheric Aerosol on the Development of the Planetary Boundary Layer in Hazy Region. Geophysical Research Letters, 47, e2020GL087373.
(13) Zhao Dandan, Liu Guangjing, Xin Jinyuan*, et al., The haze pollution under strong atmospheric oxidization capacity in summer in Beijing: Insights into the formation mechanism of atmospheric physicochemical process; Atmos. Chem. Phys., 2020, 20: 4575–4592.
(14) Xinrui Wu, Jinyuan Xin*, et al., A new approach of the normalization relationship between PM2.5 and visibility and the theoretical threshold, a case in north China, Atmospheric Research (2020), https://doi.org/10.1016/j.atmosres.2020.105054
(15) Dandan Zhao, Jinyuan Xin*, et al., The formation mechanism of air pollution episodes in Beijing city: Insights into the measured feedback between aerosol radiative forcing and the atmospheric boundary; Science of the Total Environment, 2019, 692: 371–381.
(16) Guangjing Liu, Jinyuan Xin*, et al., Impact of the coal banning zone on visibility in the Beijing-Tianjin-Hebei region, Science of the Total Environment, 2019, 692: 402–410.
(17) Ruirui Si, Jinyuan Xin*, et al., Source Apportionment and Health Risk Assessment of Trace Elements in the Heavy Industry Areas of Tangshan, China; Air Quality, Atmosphere & Health, 2019, 12(11): 1303-1315.
(18) Yining Ma, Jinyuan Xin*, et al., Long-term variations of the PM2.5 concentration identified by MODIS in the tropical rain forest, Southeast Asia; Atmospheric Research, 2019, 219: 140-152.
(19) Dandan Zhao, Jinyuan Xin*, et al., Trends of aerosol optical properties over the heavy industrial zone of northeastern Asia in the past decade (2004-2015). Journal of the Atmospheric Sciences, 2018, 75: 1741-1754.
(20) Fanglin Shi, Jinyuan Xin*, et al., The first validation of the precipitable water vapor of multisensor satellites over the typical regions in China. Remote Sensing of Environment, 2018, 206: 107-122.
(21) Hong-Juan SU, Jin-Yuan XIN*, et al., Effects of transport on aerosols over the eastern slope of the Tibetan Plateau: synergistic contribution of Southeast Asia and the Sichuan Basin. Atmospheric and Oceanic Science Letters, 2018, 11(5): 425-431.
(22) Jiannong Quan, Chunlai Jiang*, Jinyuan Xin*, et al., Evaluation of satellite aerosol retrievals with in situ aircraft and ground measurements: Contribution of relative humidity. Atmospheric Research. 2018, 212: 1-5.
(23) TANG Bin-Yan, XIN Jin-Yuan*, et al., Characteristics of complex air pollution in typical cities of North China. Atmospheric and Oceanic Science Letters, 2018, 11(1): 29-36.
(24) Ma Yongjing, Xin Jinyuan*, et al., Optical properties and source analysis of aerosols over a desert area in Dunhuang, Northwest China. Advances in Atmospheric Sciences, 2017, 34(8): 1017-1026.
(25) Wang Yuesi, Xin Jinyuan*, et al., Seasonal variations in aerosol optical properties over China; J. Geophys. Res.; 2010, 116, D18209..
(26) Lingbin Kong, Jinyuan Xin*, et al., The PM2.5 threshold for aerosol extinction in the Beijing megacity. Atmospheric environment, 167, 2017, 458-465.
(27) Chongshui Gong, Jinyuan Xin*, et al., Anthropogenic aerosol optical and radiative properties in the typical urban/suburban regions in China, Atmospheric Research, 2017, 197, 177-187.
(28) Kong Lingbin, Xin Jinyuan*, et al., The empirical correlations between PM2.5, PM10 and AOD in the Beijing metropolitan region and the PM2.5, PM10 distributions retrieved by MODIS; Environmental Pollution; 2016, 216:350-360.
(29) Zhang Qi,Xin Jinyuan*, et al., The Variations and Trends of MODIS C5 & C6 Products'Errors in the Recent Decade over the Background and Urban Areas of North China; Remote Sens; 2016, 8:754.
(30) Ma Yongjing, Xin Jinyuan*, et al., Optical properties of aerosols over a tropical rain forest in Xishuangbanna, South Asia; Atmospheric Research; 2016, 178:187-195.
(31) Shao Ping,Xin Jinyuan*, et al., The empirical relationship between PM2.5 and AOD in Nanjing of the Yangtze River Delta; Atmospheric Pollution Research; 2017, 8: 233-243.
(32) Wang Lili, Xin Jinyuan*, et al., The variability of biomass burning and its influence on regional aerosol properties during the wheat harvest season in North China;Atmospheric Research; 2015, 157: 153–163.
(33) Li Pei, Xin Jinyuan*, et al., Association between particulate matter and its chemical constituents of urban air pollution and daily mortality or morbidity in Beijing City;Environmental Science and Pollution Research; 2015, 22(1):358-368.
(34) Gong Chongshui, Xin Jinyuan*, et al., The direct radiative forcing of aerosol retrieved from MODIS over the Beijing metropolitan area from 2004 to 2011;Journal of Aerosol Science; 2014,69:62-70.
(35) Chen Jiashan, Xin Jinyuan*, et al., Observation of aerosol optical properties and particulate pollution at background station in the Pearl River Delta region; Atmospheric Research; 2014, 143:216–227.
(36) Li Pei, XinJinyuan*, et al., Time-series analysis of mortality effects from airborne particulate matter size fractions in Beijing; Atmospheric Environment; 2013, 81: 253-262.
(37) Li Pei, Xin Jinyuan*, et al., The acute effects of fine particles on respiratorymortality and morbidity in Beijing, 2004-2009; Environ. Sci. Pollut. Res.; 2013,20: 6433-6444.
(38) Li Pei, XinJinyuan*, et al., Observational studies and a statistical early warning of surface ozone pollution in Tangshan, the largest heavy industrial city of North China; Int. J. Environ. Res. Public Health; 2013,10: 1048-1061.
(39) Ma Yongjing, Xin Jinyuan*, et al., Optical properties and source analysis of aerosols over a desert area in Dunhuang, Northwest China; Advances in Atmospheric Sciences; 2017. 34(8), 1017–1026.
(40) Kequan Zhang, Yongjing Ma, Jinyuan Xin*, et al., The aerosol optical properties and PM2.5 components over the world's largest industrial zone in Tangshan, North China. Atmospheric Research, 2018, 201, 226-234.
(41) Zhang Jie, Xin Jinyuan, et al., Validation of MODIS C6 AOD products retrieved from the DT method in the Beijing-Tianjin-Hebei urban agglomeration, China; Adv. Atmos. Sci. 2017, 34 (8): 993 -1002..
(42) Du Wupeng, Xin Jinyuan, et al., Photometric measurements of spring aerosol optical properties in dust and non-dust periods in China; Atmospheric Environment; 2008,42(34):7981-7987.
(43) Wang Lili, Xin Jinyuan, et al., Evaluation of the MODIS aerosol optical depth retrieval over different ecosystems in China during EAST-AIRE; Atmospheric Environment; 2007,41(33):7138-7149.
(44) Wang Lili, Xin Jinyuan, et al., Validation of MODIS aerosol products by CSHNET over China; Chinese Science Bulletin; 2007, 25(12):1708-1718.
(45) Meng F., Xin J.Y., et al., Seasonal variations of aerosol optical thickness over eastern China determined from VIIRS and ground measurements; International Journal of Remote Sensing; 2016, 37(8):1868-1880.
(46) Gao Meng, Saide Pablo E., Xin Jinyuan, et al., Estimates of Health Impacts and Radiative Forcing in Winter Haze in eastern China through constraints of surface PM2.5 predictions; Environ. Sci. Technol.; 2017, 51 (4), 2178–2185.
(47) Tang Guiqian, Zhu Xiaowan, Xin Jinyuan, et al., Modelling study of boundary-layer ozone over northern China - Part I: Ozone budget in summer; Atmospheric Research; 2017,187: 128–137.
(48) Guiqian Tang, Xiaowan Zhu, Jinyuan Xin, et al., Modelling study of boundary-layer ozone over northern China - Part II: Responses to emission reductions during the Beijing Olympics, Atmospheric Research, 2017,193, 83-93.
(49) Shao Ping, An Junlin, Xin Jinyuan, et al., Source apportionment of VOCs and the contribution to photochemical ozone formation during summer in the typical industrial area in the Yangtze River Delta, China; Atmospheric Research; 2016, 176:64-74.
(50) Wan X., Kang S.C., Xin J.Y., et al., Chemical composition of size-segregated aerosols in Lhasa City, Tibetan Plateau; Atmospheric Research; 2016,174:142-150.
(51) Schaefer K., Ling H., Xin J., Wang Y., Suppan P.;Study of near-surface air pollutant concentration variations by DOAS in a traffic influenced area; Gefahrstoffe Reinhaltung der Luft; 2015, 75(6): 241-245.
(52) Lin J.-T., Liu M.-Y., Xin J.-Y., et al., Influence of aerosols and surface reflectance on satellite NO2 retrieval: seasonal and spatial characteristics and implications for NOx emission constraints; Atmos. Chem. Phys.; 2015, 15: 11217-11241.
(53) Chang Wenyuan, Liao Hong, Xin Jinyuan, et al., Uncertainties in anthropogenic aerosol concentrations and direct radiative forcing induced by emission invertories in eastern China; Atmospheric Research; 2015, 166: 129-140.
(54) Pan Yuepeng, Wang Yuesi, Xin Jinyuan, et al., Study on dissolved organic carbon in precipitation in Northern China; Atmospheric Environment; 2010,44(19): 2350-2357.
(55) Wang Lili, Wang Yuesi, XinJinyuan, et al., Assessment and comparison of three years of Terra and Aqua MODIS Aerosol;Atmospheric Research; 2010, 97: 229-240.
(56) Lin Jintai, Donkelaar Aaron van, Xin Jinyuan, Che Huizheng, Wang Yuesi; Clear-sky aerosol optical depth over East China estimated from visibility measurements and chemical transport modeling; Atmospheric Environment; 2014, 95: 258–267.
(57) Ling H., Schäfer K., Xin J., Qin M., Suppan P., Wang Y.; Small-scale spatial variations of gaseous air pollutants - A comparison of path-integrated and in situ measurement methods; Atmospheric Environment; 2014, 92:566–575.
(58) 辛金元,王跃思, 李占清, 王普才, 王式功,温天雪, 孙扬; 中国地区太阳分光辐射观测网的建立和仪器定标; 环境科学; 2006, 27(9):1697-1702.
(59) 辛金元,张文煜, 袁九毅, 刘立超; 消光法反演腾格里沙漠地区沙尘气溶胶谱分布;高原气象; 2004, 23(5): 654-659.
(60) 辛金元,张文煜, 袁九毅, 刘立超; 沙尘气溶胶对直接太阳辐射的衰减研究; 中国沙漠; 2003, 23(3):311-315.
(61) 辛金元,袁九毅, 吕萍, 陈强, 潘峰, 牟高萍; 甘肃省公众环境意识与感受程度的调查与分析;甘肃环境研究与监测; 2001, 14(3):178-179.
(62) 辛金元, 王跃思, 唐贵谦, 王莉莉, 孙扬, 王迎红, 胡波, 宋涛, 吉东生, 汪伟峰, 李亮, 刘广仁; 2008奥运期间北京及周边地区大气污染物消减变化; 科学通报; 2010, 55(15): 1510-1519.
(63) 赵垒,辛金元*,杨磊库,司瑞瑞,刘光静,杜超杰, Himawari-8气溶胶光学厚度产品的验证分析, 大气科学, 2020, 44(3): 455−471.
(64) 邵平, 辛金元*, 安俊琳, 王俊秀, 吴方堃, 吉东生, 王跃思; 2017. 长三角工业区夏季近地层臭氧和颗粒物污染相互关系研究. 大气科学, 41 (3): 618−628.
(65) 张婕, 刘昊野, 辛金元*, 张文煜, 肖国杰, 冯鑫媛, 王莉莉; 沈阳地区MODIS与MERSI气溶胶产品的对比研究;遥感学报; 2016, 20(4): 549-560.
(66) 王跃思,辛金元, 李占清,王普才,王式功, 温天雪, 孙扬; 中国地区大气气溶胶光学厚度与Angstrom参数联网观测(2004-08~2004-12); 环境科学; 2006, 27(9): 1703-1711.
(67) 周瑞, 辛金元, 邢立亭, 王晓元, 封孝信, 吉东生, 王跃思; 唐山工业新区冬季采暖期大气污染变化特征研究; 环境科学; 2011,32(7):1874-1880.
(68) 王晓元, 辛金元, 王跃思, 封孝信, 张玉平; 唐山夏秋季大气质量观测与分析; 环境科学; 2010,31(4): 877-885.
(69) 吴丹, 辛金元, 孙扬, 王跃思, 王普才; 2008年奥运期间华北区域大气污染物本底浓度变化与分析; 环境科学; 2010, 31(5):1130-1138.
(70) 康娜, 辛金元, 蔺永耀, 苏福庆, 王跃思; 北京山前典型细粒子污染过程的气象条件分析;环境科学研究; 2009,22(16):1013-1020.
(71) 张文煜,辛金元,袁九毅, 刘立超; 腾格里沙漠气溶胶光学厚度多波段遥感研究; 高原气象; 2003, 22(6): 613-617.
(72) 王莉莉, 辛金元, 王跃思, 李占清, 王普才, 刘广仁, 温天雪; CSHNET观测网评估MODIS气溶胶产品在中国区域的适用性; 科学通报; 2007, 52(4):477-486.
(73) 郭永涛, 辛金元, 李江萍, 王式功, 程一帆; 2010年兰州市降雨化学成分特征;兰州大学学报(自然科学版); 2015, 51(4):546-552.
(74) 郭育红, 辛金元, 王跃思, 温天雪, 李杏茹; 保定市大气颗粒物中含碳组分粒径分布; 气候与环境研究; 2014,19(2):185-192.
(75) 王晓元, 辛金元, 王莉莉, 王跃思; 中国三个典型城市气溶胶光学厚度地基观测及其MODIS气溶胶产品精度分析; 气候与环境研究; 2012, 17(1):37-45.
(76) 郭勇涛, 辛金元, 李旭, 王式功, 李江萍; 沙尘对兰州市大气环境质量的影响;中国沙漠; 2015, 35(4): 977-982.
(77) 王中挺,辛金元,贾松林,厉青,陈良富,赵少华; 利用暗目标法从高分一号卫星16米相机反演气溶胶光学厚度; 遥感学报; 2015, 19(3):530-538.
(78) 郭育红, 辛金元, 王跃思, 温天雪, 李杏茹, 封孝信; 唐山市大气颗粒物EC/OC浓度谱分布观测研究;环境科学; 2013, 34(7): 2497-2504.
(79) 林海峰, 辛金元, 张文煜, 王跃思, 刘子锐, 陈传雷; 北京市近地层颗粒物浓度与气溶胶光学厚度相关性分析研究;环境科学; 2013, 34(3): 826-834.
(80) 杨俊益, 辛金元, 吉东生, 朱彬;2008~2011年夏季京津冀区域背景大气污染变化趋势分析; 环境科学; 2012, 33(11): 3493-3704.
(81) 王敏,辛金元,田伟,《防化气象》,解放军出版社;统一书号:55065.6281,字数:306千字;2008年5月第1版。
(82) 王式功,辛金元,周春红,张莹等《城市空气污染预报》,气象出版社,ISBN 978-7-5029-7104-5,字数:470千字。2020年第1版。
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