9. Xingqin An, Tong Zhu, Zifa Wang, Chengcai Li, and Yuesi Wang, Atmospheric Chemistry and Physics A modeling analysis of a heavy air pollution episode occurred in Beijing, Atmos. Chem. Phys., 2007, 7: 3103–3114 (SCI)

10. XingqinAn, Hongchao. Zuo, Lijuan Chen, Atmospheric Environmental Capacity of S_O2 in winter in over Lanzhou in China, ADVANCES IN ATMOSPHERIC SCIENCES, 2007, VOL.24( NO.4): 1-12  (SCI)

 11. Wang Chao, An Xingqin*, Li Jiangtao, Jiang Linsen, Ke Huabing, Wang Ying, 2023: Sensitivity analysis of atmospheric oxidation capacity in Beijing based on the GRAPES-CUACE adjoint model: Atmos. Environ., 119641, 1352-2310.

 12. Yuxin Zhao, Zhaobin Sun, Li Xiang*, Xingqin An*, Xiaoling Hou Jing Shang, Ling Han, Caihua Ye. Effects of pollen concentration on allergic rhinitis in children: A retrospective study from Beijing, a Chinese megacity. Environmental Research 229 (2023) 115903.2023(IF 8.4)

 13. C. Wang, X. An*, D. Zhao, et al., Development of GRAPESCUACE adjoint model version 2.0 and its application in sensitivity analysis of ozone pollution in north China, Science of the Total Environment (2021), https://doi.org/10.1016/ j.scitotenv.2022.153879

 14. Wei Wang, Xingqin An*, Qingyong Li, Yangli-ao Geng, Haomin Yu, Xinyuan Zhou, Optimization research on air quality numerical model forecasting effects based on deep learning methods, Atmospheric Research, Volume 271, 15 June 2022, 106082

15. Li Jiangtao, An Xingqin*, Li Qingyong*, et al. Application of XGBoost Algorithm in the Optimization of Pollutant Concentration[J], Atmospheric Research, 2022, 276, 106238. (SCI, IF 4.676)

16. Li, Y.; An, X. *; Wang, B.; Li, J.; Wang, C. Analysis of Synergistic Effects of Cold Source and East Asian Winter Wind on Air Pollution in Typical Regions of China in Winter. Atmosphere 2022, 13, 1162. https://doi.org/10.3390/atmos13081162

17. Hou Qing, An Xingqin*, Sun Zhaobin, Zhang Chao, liang Ke. Assessment of Black Carbon Exposure Level and Health Economic Loss in China. Environmental Science and Pollution Research. (DOI:10.1007/s11356-021-17776-w)（SCI收錄🩸，IF: 4.223）

18. Chao Wang, Xingqin An*, Qing Hou, Zhaobin Sun, Yanjun Li, and JiangtaoLi, Development of four-dimensional variational assimilationsystem based on the GRAPES–CUACE adjointmodel(GRAPES-CUACE-4D-Var V1.0) and its application in emission inversion, Geosci. Model Dev., 2021,14, 337–350. (SCI, IF 5.24)

19. Jiangtao, L., Xingqin, A. *, Meng, C., Zhaobin, S., Chao, W., Yanjun, L., Simulation Study on Regional Atmospheric Oxidation Capacity and Precursor Sensitivity, Atmospheric Environment, https://doi.org/10.1016/j.atmosenv.2021.118657.

20. Cui, M., X. Q. An*, L. Xing, G. H. Li, G. Q. Tang, J. J. He, X. Long, S. M. Zhao. Simulated sensitivity of ozone generation to precursors in Beijing during a high O3 episode. Adv. Atmos. Sci., 2021, https://doi.org/10.1007/s00376-021-0270-4. (SCI, IF 2.583)

21. Yanjun Li, XingqinAn*,Peiqun Zhang, Jianling Yang, Chao Wang, Jiangtao Li. Influence of East Asian winter monsoon on particulate matter pollution in typical regions of China.2021, Atmospheric environment, 118213.(SCI, IF 4.039)

22. Yanjun Li, Xingqin An*, Guangzhou Fan, Chao Wang, Yang Zhao, Jiangtao Li. Influence of Thermal Effects on Qinghai-Tibet Plateau on Air Quality in Typical Regions of China in Winter.[J].Atmosphere, 2020, 11(1), 50. (SCI, IF 2.397)

23. Fu, G., An, X. *, Liu, H., Tian, Y., Wang, P. Assessment of the Impact of PM2.5 Exposure on the Daily Mortality of Circulatory System in Shijiazhuang, China. Atmosphere, 2020, 11(9), 1018.(SCI, IF 2.397)

24. Chao Wang, XingqinAn*, Peiqun Zhang, Meng Cui, Lin Ma. Comparing the impact of strong and weak East Asian winter monsoon on PM2.5 concentration in Beijing. Atmospheric Research, 2019, 215,165-177. (SCI, IF 4.676)

25. Yuxin Zhao, Xingqin An*, Zhaobin Sun, Yi Li, Qing Hou. Identification of Health Effects of Complex Air Pollution in China. Int. J. Environ. Res. Public Health 2022, 19, 12652.

26. ShixianZhai, XingqinAn*,Tianliang Zhao, Zhaobin Sun, Wei Wang, Qing Hou, ZengyuanGuo, and Chao Wang. Detection of critical PM2.5 emission sources and their contributions to a heavy haze episode in Beijing, China, using an adjoint model. Atmos. Chem. Phys., 2018,18, 6241–6258.(SCI, IF 5.414)

27. Chao Wang, XingqinAn*, ShixianZhai, Qing Hou, ZhaobinSun. Tracking sensitive source areas of different weather pollution types using GRAPES-CUACE adjoint model. Atmos. Environ., 2018, 175, 154-166. (SCI, IF 4.039)

28. Chao Wang, XingqinAn*, ShixianZhai, ZhaobinSun. Tracking a Severe Pollution Event in Beijing in December 2016 with the GRAPES-CUACE Adjoint Model. J. Meteor. Res., 2018,32, 49-59. (SCI, IF 2.302)

29. ShixianZhai, XingqinAn*, ZhaoLiu, ZhaobinSun, QingHou. Model assessment of atmospheric pollution control schemes for critical emission regions[J]. Atmospheric Environment, 2016, 124:367-377. (SCI, IF 4.039)

30. QingHou, XingqinAn*, YanTao, ZhaobinSun. Assessment of resident's exposure level and health economic costs of PM 10, in Beijing from 2008 to 2012[J]. Science of the Total Environment, 2016, s 563–564:557-565. (SCI, IF 6.551)

31. Zhaobin Sun, XingqinAn*, Yan Tao, Qing Hou.Assessment of population exposure to PM10 for respiratory disease in Lanzhou (China) and its health-related economic costs based on GIS[J]. Bmc Public Health, 2013, 13(1):1-9.(SCI, IF 2.521)

32. Cheng YanLi, An XingQin*, YUN FangHua, Zhou LingXi, Liu LiXin, Fang ShuangXi, Xu Lin. Simulation of CO2 variations at Chinese background atmospheric monitoring stations between 2000 and 2009:Applying a CarbonTracker model[J].Chinese Science Bulletin,2013,58(32):3986-3993. (SCI, IF 0.770)

33. Yan Tao, XingqinAn*, Zhaobin Sun, Qing Hou, Yu Wang.Association between dust weather and number of admissions for patients with respiratory diseases in spring in Lanzhou[J]. Science of the Total Environment, 2012, 423(8):8-11.(SCI, IF 6.551)

34. Qing Hou, XingqinAn*,Yu Wang, Yan Tao, ZhaobinSun.An assessment of China's PM10-related health economic losses in 2009[J]. Science of the Total Environment, 2012, s 435–436:61-65.(SCI, IF 6.551)

35. Hou Q, An X Q*, Wang Y, Guo JP. An evaluation of resident exposure to respirable particulate matter and health economic loss in Beijing during Beijing 2008 Olympic Games.[J]. Science of the Total Environment, 2010, 408(19):4026-4032.(SCI, IF 6.551)

36. 安興琴，王超🤟🏼，李江濤等，GRAPES-CUACE伴隨模式構建及其在北京地區黑碳和臭氧溯源分析中的應，山峽生態環境監測🤹🏻‍♂️，2020, 3

37. 安興琴, 姚波, 李巖, 周淩晞, 劉釗, 翟世賢. 利用FLEXPART模式反演中國區域SF6排放量[J]. 環境科學學報, 2014, 34(5):1133-1140. (1級核心, IF 1.497)

38. 李江濤,安興琴*,李清勇,余浩敏,汪巍,周心源,王超,崔萌. 基於XGBoost算法的WRF-Chem模式優化模擬研究[J].中國環境科學, 2021 (中文核心🙎🏿‍♂️，IF 1.892)

39. 李顏君,安興琴*,範廣洲,北京地區大氣顆粒物輸送路徑及潛在源分析.中國環境科學.2019,39(3): 915-927. (1級核心,EI)

40. 崔萌,安興琴*,範廣洲,王超,孫兆彬,任文輝.北京一次重汙染過程的天氣成因及來源分析[J].中國環境科學,2018,38(10):3628-3638.(1級核心,EI)

41. 王超, 安興琴*, 翟世賢,孫兆彬. 伴隨模式在追蹤汙染事件重點源區中的應用[J]. 中國環境科學, 2017, 37(4):1283-1290. (1級核心,EI)

42. 孫兆彬, 安興琴*, 崔甍甍, 陶燕, 馬小會, 葉晨. 北京地區顆粒物健康效應研究——沙塵天氣、非沙塵天氣下顆粒物(PM2.5、PM10)對心血管疾病入院人次的影響[J]. 中國環境科學, 2016, 36(8):2536-2544. (1級核心,EI)

43. 程巳陽, 安興琴*, 周淩晞,程興宏. 本底站和城區站CO濃度變化特征和源貢獻[J]. 中國環境科學, 2016, 36(10):2930-2937. (1級核心,EI)

44. 程巳陽, 安興琴*, 周淩晞, 劉立新, 方雙喜, 姚波, 劉釗. 北京上甸子大氣本底站CO_2濃度的源匯區域代表性研究[J]. 中國環境科學, 2015, 35(9):2576-2584. (1級核心,EI)

45. 翟世賢,安興琴*,孫兆彬,劉俊.汙染源減排時刻和減排比例對北京市PM2.5濃度的影響[J].中國環境科學,2015,35(07):1921-1930. (1級核心,EI)

46. 劉俊, 安興琴*, 朱彤, 翟世賢,李楠. 京津冀及周邊減排對北京市PM2.5濃度下降評估研究[J]. 中國環境科學, 2014, 34(11):2726-2733. (1級核心,EI)

47. 翟世賢, 安興琴*, 劉俊, 吳其重, 李楠, 張小玲. 不同時刻汙染減排對北京市PM2.5濃度的影響[J]. 中國環境科學, 2014, 34(6):1369-1379. (1級核心,EI)

48. 馬林, 安興琴*, 朱彬, 周淩晞, 姚波, 車勝利, 李東宇. 上甸子本底站鹵代溫室氣體大氣濃度短期波動的個例分析[J]. 大氣科學學報, 2014, 37(4):493-501. (1級核心)

49. 程艷麗, 安興琴*, 運方華, 周淩晞, 劉立新, 方雙喜, 許林. 中國大氣本底站2000～2009年CO2濃度變化模擬:Carbon Tracker模式應用[J].科學通報,2013,58(19):1885.(1級核心)

50. 孫兆彬, 安興琴*, 陶燕, 侯青. 基於GIS和大氣數值模擬技術評估蘭州市PM₁₀的人群暴露水平[J].中國環境科學,2012,32(10):1753-1757. (1級核心,EI)

51. 侯青, 安興琴*, 王自發, 王郁, 孫兆斌. 2002~2009年蘭州PM₁₀人體健康經濟損失評估[J].中國環境科學,2011,31(08):1398-1402. (1級核心,EI)

52. 李巖, 安興琴*, 姚波, 周淩晞, 左洪超. 北京地區FLEXPART模式適用性初步研究[J].環境科學學報,2010,30(08):1674-1681. (1級核心)

53. 李巖, 安興琴*, 左洪超, 曹國良, 林偉立, 王瑛. 2008年北京奧運交通限製效果的模式研究[J].高原氣象,2010,29(06):1619-1626.(1級核心)

54. Xingqin AN, A.Q. Ma, H.L. Wang, Spatial Analysis of Atmospheric Pollution in Lanzhou based on GIS, The 2nd International Conference on Bioinformatics and Biomedical Engineering (iCBBE 2008), May 16-18, 2008, Shanghai, China（國際會議文集，EI）

55. 安興琴，馬安青↖️，王惠林，基於GIS的蘭州市大氣汙染空間分析,幹旱區地理，2006，29（4）：576-581（1級核心）

56. 安興琴，呂世華，安俊嶺🤽‍♂️，蘭州市冬季大氣邊界層結構特征的觀測和數值模擬研究，氣象科學👨🏼‍⚖️🏀，2006 （2級核心）

57. 安興琴🧳，左鴻超，呂世華🧑🏿‍💻，Models-3空氣質量模式對蘭州市汙染物輸送的模擬🐟，高原氣象，2005，24(5):748-756（1級核心）

58. 安興琴，陳玉春，呂世華🍏，蘭州市大氣環境容量研究🤦🏿，高原氣象🧐➡️，2004，23（1）：110-115（核心）

59. 安興琴🙌🏻，呂世華，金塔綠洲大氣邊界層特征的數值模擬研究，高原氣象，2004🛀🏼😒，23(2): 200-208（1級核心）

60. 安興琴👩🏿‍🌾，呂世華，陳玉春，河西綠洲效應的數值模擬研究，高原氣象👱🏼‍♀️🎼，2004，Vol.2🚣🏼‍♀️，208-215

61. 安興琴，陳玉春，呂世華✈️，蘭州市城區冬季TSP容許排放總量的估算🦵🏼，中國環境科學，2003，23（1）， No.1：60-63（1級核心）

62. 安興琴🕜，陳玉春🤵‍♂️，呂世華，蘭州市南北兩山地表植被對氣象場影響的模擬研究，氣象科學，2003，Vol.23，No.1: 1-6

63. 安興琴💇🏻‍♂️，陳玉春，呂世華，蘭州市空氣汙染防治綠化對策初談，城市環境與城市生態😷，2003，Vol.16，No.5:34-37

64. 安興琴👨‍🔬，陳玉春，中尺度模式對蘭州市冬季低空風場和溫度場的數值模擬，高原氣象，2002🔓👦🏽，Vol.21，No.2: 186-192

65. 安興琴，陳玉春⛩，淺議西北地區生態環境建設的氣候效應，幹旱地區農業研究🤦🏼，2002，Vol.20👵🏽，No.1: 116-119

66. 安興琴，陳玉春，呂世華🧢🧶，蘭州市兩山綠化的數值模擬試驗（I）：冬季，高原氣象，2001，Vol.20(增刊): 22-35

67. 安興琴，陳玉春，呂世華🚅，蘭州市兩山綠化的數值模擬試驗（II）☎：夏季，高原氣象🍩𓀅，2001🚣🏽，Vol.20(增刊): 36-44

合作作者

68. Yi Li, Canjun Zheng, Xingqin An, Qing Hou, Acute effects of black carbon on mortality in nine megacities of China, 2008-2016: a time-stratified case-crossover study, Environmental Science and Pollution Research, 2022

69. Zhaobin Sun, Yuxin Zhao, Xinggin An, et al. 2023. Effects of airborne pollen on allergic rhinitis and asthma in populations: evidence frommegacity in Beijing, China. Science of the Total Environment 912 (2024) 169215

70. Zhaobin Sun, Xiaoling Zhang, Ziming Li, Yinglin Liang, Xingqin An, Yuxin Zhao, Shiguang Miao, Ling Han, Demin. Heat exposure assessment based on high-resolution spatio-temporal data of population dynamics and temperature variations. Journal of Environmental Management 349 (2024) 119576.

71. Ling Han, Tian Qin, Zhaobin Sun , Hongyu Ren, Na Zhao, Xingqin An, Zhanshan Wang. Influence of Urbanization on the Spatial Distribution of Associations Between Air Pollution and Mortality in Beijing,China. GeoHealth, 7, e2022GH000749.

72. Yi Li; Congying Zou; Jieying Li; Wen Wang*; Yue Guo; Lifang Zhao; Peng Zhao; Xingqin An. Upper respiratory tract microbiota is associated with small airway function and asthma severity, BMC Microbiology, 2023, 13(13)

73. Shang, Y., Xue, W., Kong, J., Chen, Y., Qiu, X., An, X., Li, Y., Wang, H., An, J. Mitochondrial Oxidative Stress Regulated Ultrafine Black Carbon Caused Mitochondrial Dysfunction through PINK1/Parkin-dependent Mitophagy. Science of the Total Environment. （SCI收錄🥓，IF: 7.963）

74. SiyangCheng, LingxiZhou, Pieter P.Tans, XingqinAn, YunsongLiu. Comparison of atmospheric CO 2, mole fractions and source–sink characteristics at four WMO/GAW stations in China[J]. Atmospheric Environment, 2018, 180, 216-225. (SCI)

75. XiaowanZhu, GuiqianTang, FengLv, BoHu, MengtianCheng, ChristophMünkel, KlausSchäfer, JinyuanXin, XingqinAn, GuochengWang, XinLi, YuesiWang. The spatial representativeness of mixing layer height observations in the North China Plain[J]. Atmospheric Research, 2018, 209, 204-211. (SCI)

76. Siyang Cheng, XingqinAn, Lingxi Zhou, Pieter P.Tans, Andy Jacobson. Atmospheric CO2, at Waliguan station in China: Transport climatology, temporal patterns and source-sink region representativeness [J]. Atmospheric Environment, 2017, 159:107-116.(SCI)

77. Jianjun He, Sunling Gong, HongliLiu,Xingqin An, Ye Yu, Suping Zhao, Lin Wu, Congbo Song, Chunhong Zhou, Jie Wang, Chengmei Yin, Lijuan Yu. Influences of Meteorological Conditions on Interannual Variations of Particulate Matter Pollution during Winter in the Beijing–Tianjin–HebeiArea[J]. J. Meteor. Res., 2017, 31(6):1062-1069. (SCI)

78. XiangdeXu, XueliangGuo, Tianliang Zhao, Xingqin An, Yang Zhao, JiannongQuan, Fei Mao, Yang Gao, Xinghong Cheng, Wenhui Zhu, and Yinjun Wang. Are precipitation anomalies associated with aerosol variations over eastern China?[J]. Atmospheric Chemistry & Physics, 2017, 17(12):1-19. (SCI)

79. Siyang Cheng, Yaqiang Wang, Xingqin An. Temporal Variation and Source Identification of Black Carbon at Lin'an and Longfengshan Regional Background Stations in China[J]. Journal of Meteorological Research, 2017, 31(6):1070-1084. (SCI)

80. P. Wang, H. Wang, Y. Q. Wang, X. Y. Zhang, S. L. Gong, M. Xue, C. H. Zhou, H. L. Liu, X. Q. An, T. Niu,Y. L. Cheng. Inverse modeling of black carbon emissions over China using ensemble data assimilation[J]. Atmospheric Chemistry & Physics Discussions, 2015, 16(2):20851-20879.(SCI)

81. ChunHong Zhou, Sunling Gong, XiaoYe Zhang, HongLi Liu, Min Xue, GuoLiang, Cao, XingQin An, HuiZhengChe, YangMei Zhang, Tao Niu.Towards the improvements of simulating the chemical and optical properties of Chinese aerosols using an online coupled model – CUACE/Aero[J]. Tellus Series B-chemical & Physical Meteorology, 2012, 64(1):91-102.(SCI)

82. CaoGuoliang, ZhangXiaoye, GongSunling, AnXingqin, WangYaqiang. Emission inventories of primary particles and pollutant gases for China[J]. Science Bulletin, 2011, 56(8):781-788.(SCI)

83. Wang WeiHe, Zhang XingYing, An XingQin, Zhang Yan, Huang FuXiang, Wang YongMei, Wang YingJian, Zhang ZhongMou, LüJianGong, Fu LiPing, Jiang Fang, Liu GuoYang.Analysis for retrieval and validation results of FY-3 Total Ozone Unit (TOU)[J]. Science Bulletin, 2010, 55(26):3037-3043.(SCI)

84. ZhaoYangMeng, XiaoBinXu, Tao Wang, XingYing, Zhang, XiaoLan, Yu, ShuFeng Wang, WeiLi Lin, YiZhen Chen, YiAn Jiang, XingQinAn.Ambient sulfur dioxide, nitrogen dioxide, and ammonia at ten background and rural sites in China during 2007–2008[J]. Atmospheric Environment, 2010, 44(21–22):2625-2631.(SCI)

 85. Shihua Lu, XingqinAn, Yuchun Chen，Simulation of oasis breeze circulation in the arid region of the Northwestern China♕，Science China Ser D Earth Science, 2004, Vol.47: 101-107（SCI）

 86. Chune Shi,H.J.S. Fernando, Zifa Wang, Xingqin An, Qizhong Wu, Tropospheric NO2 columns over East Central China: Comparisons between SCIAMACHY measurements and nested CMAQ simulations, Atmospheric Environment, 2008, 42:7166-7173（SCI

 87. 王璐瑤,張磊,安興琴等. 秸稈燃燒氣溶膠的氣象反饋及其棕碳吸光效應 [J]. 中國環境科學(2023-12-04) (中文核心,EI，IF 1.892)

88. 李江濤🦵🐋，王寶珍，安興琴等，氣溶膠輻射效應對邊界層及汙染物濃度的影響，山峽生態環境監測☣️，2020, 3

89. 蘆延廷，趙秀娟，唐貴謙🛄，徐敬，陳丹🪸，安興琴，邊界層方案與垂直混合對京津冀及周邊地區O3模擬的影響研究,  中國環境科學，2022，10

90. 程興宏, 徐祥德, 安興琴, 蔣永成, 蔡子穎, 刁誌剛, 李德平. 2013年1月華北地區重霾汙染過程SO2和NOx的CMAQ源同化模擬研究[J]. 環境科學學報, 2016, 36(2):638-648.  (1級核心)

91. 孫兆彬, 陶燕, 安興琴,馬小會. 不同季節PM10與呼吸系統疾病暴露-反應關系研究[J]. 環境與健康雜誌, 2016, 33(8):663-669. (1級核心)

92. 劉釗, 姚波, 安興琴, 周淩晞, 欒天, 王紅陽, 張根, 程巳陽. 中國區域HCFC-142b排放量模式反演研究[J]. 中國環境科學, 2015, 35(4):1040-1046. (1級核心)

93. 孫兆彬, 陶燕, 崔甍甍, 馬小會, 張小玲, 安興琴, 張德山. 北京地區奧運會期間PM2.5對心腦血管疾病的影響[J]. 中國環境科學, 2015, 35(11):3481-3488. (1級核心)

94. 麥博儒, 鄧雪嬌, 安興琴, 周淩唏, 譚浩波, 李菲, 李楠. 基於碳源匯模式系統Carbon Tracker的廣東省近地層典型CO2過程模擬研究[J]. 環境科學學報, 2014, 34(7):1833-1844.  (1級核心)

95. 麥博儒, 鄧雪嬌, 安興琴, 劉顯通, 李菲, 劉霞. 基於衛星遙感的廣東地區對流層二氧化碳時空變化特征[J]. 中國環境科學, 2014, 34(5):1098-1106. (1級核心)

96. 麥博儒, 安興琴, 鄧雪嬌, 周淩晞, 王春林, 李菲, 黃建平, 陳玲, 尹淑嫻. 珠江三角洲近地層CO_2通量模擬分析與評估驗證[J]. 中國環境科學, 2014, 34(8):1960-1971. (1級核心)

97. 運方華, 王連喜, 安興琴, 程艷麗.結合氣象模式與GloBEIS模式研究氣象條件對BVOCs排放的影響[J].南京信息工程大學學報(自然科學版),2013,5(03):236-243.(1級核心)

98. 金敏👨🏽‍🔬🥿，張其林，安興琴，王郁，侯青.中國區域閃電特征分析及閃電產生NOx量的估算[J].大氣科學學報,2012,35(03):372-379.  (1級核心)

99. 曹國良，張小曳，龔山陵🍭🤽🏿‍♀️，安興琴🪠，王亞強.中國區域主要顆粒物及汙染氣體的排放源清單[J].科學通報，2011🅱️🧑🏿‍🏭，56(03):261-268.(1級核心)

100. 孫兆彬⚆👨🏻‍🏭，李棟梁，陶燕💅🏿，安興琴，侯青，蘭州市大氣PM10與呼吸系統疾病入院人數的時間序列研究[J].環境與健康雜誌,2010,27(12):1049-1052. (1級核心)

101. 王維和, 張興贏, 安興琴, 張艷, 黃富祥, 王詠梅, 王英鑒, 張仲謀, 呂建工, 傅利平, 江芳, 劉國楊. 風雲三號氣象衛星全球臭氧總量反演和真實性檢驗結果分析[J].科學通報,2010,55(17):1726-1733.(1級核心)

 102. 呂世華，安興琴🏠，陳玉春🧑‍🦽，西北幹旱區綠洲－沙漠環流形成機理的數值模擬[J]，中國科學D輯，2003,12,Vol(33)👩🏽‍🚀：98-100

 103. 劉立超，安興琴，李新榮，等．寧夏鹽池沙塵暴特征分析.中國沙漠🚴🏽‍♂️🧑‍🎄，2003🕦，23（1）：33-36.

 104. 陳玉春，安興琴🚤，呂世華，改變蘭州市地表植被對大氣汙染影響防治對策[J]🐒，高原氣象，2001，Vol.20(增刊): 126-133

 105. 馬安青，劉道彬👧🏻，安興琴，基於GIS的多因子分析法對蘭州市大氣環境功能區劃的研究,幹旱區地理，2007， Vol.30(2)：1-7

 106. 馬安青，胡泓，安興琴👏🏻，應用GIS模擬城市大氣汙染物濃度分布，城市環境與城市生態，2007🕴🏻，Vol.20，No.2🧮：32-38

 107. 王希波, 馬安青, 安興琴等, 蘭州市主要大氣汙染物濃度季節變化時空特征分析, 中國環境監測，2007，Vol.23👺， No. 4：61-65

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