教育背景:
2014.09-2019.06 上海交通大学 土木工程 博士
2010.09-2014.06 吉林大学 交通规划与管理 学士
研究经历:
2019.07-至今 暨南大学 大气化学 博士后
大气边界层污染物垂直观测
臭氧污染研究
[1] Li, X.-B., Zhang, C., Liu, A., Yuan, B., Yang, H., Liu, C., Wang, S., Huangfu, Y., Qi, J., Liu, Z., He, X., Song, X., Chen, Y., Peng, Y., Zhang, X., Zheng, E., Yang, L., Yang, Q., Qin, G., Zhou, J., and Shao, M.: Assessment of long tubing in measuring atmospheric trace gases: applications on tall towers, Environmental Science: Atmospheres, 3, 2023.
[2] Li, X.-B., Yuan, B., Wang, S., Wang, C., Lan, J., Liu, Z., Song, Y., He, X., Huangfu, Y., Pei, C., Cheng, P., Yang, S., Qi, J., Wu, C., Huang, S., You, Y., Chang, M., Zheng, H., Yang, W., Wang, X., and Shao, M.: Variations and sources of volatile organic compounds (VOCs) in urban region: insights from measurements on a tall tower, Atmos. Chem. Phys., 22, 10567-10587, 2022.
[3] Li, X.-B., and Fan, G.: Interannual variations, sources, and health impacts of the springtime ozone in Shanghai, Environ Pollut, 306, 119458, 2022.
[4] Li, X.-B., Yuan, B., Parrish, D. D., Chen, D., Song, Y., Yang, S., Liu, Z., and Shao, M.: Long-term trend of ozone in southern China reveals future mitigation strategy for air pollution, Atmos Environ, 269, 118869, 2022.
[5] Li, X.-B., Fan, G., Lou, S., Yuan, B., Wang, X., and Shao, M.: Transport and boundary layer interaction contribution to extremely high surface ozone levels in eastern China, Environ Pollut, 268, 115804, 2021.
[6] Li, X.-B., Peng, Z.-R., Wang, D., Li, B., Huangfu, Y., Fan, G., Wang, H., and Lou, S.: Vertical distributions of boundary-layer ozone and fine aerosol particles during the emission control period of the G20 summit in Shanghai, China, Atmospheric Pollution Research, 12, 352-364, 2021.
[7] Li, X.-B., Peng, Z.-R., Lu, Q.-C., Wang, D., Hu, X.-M., Wang, D., Li, B., Fu, Q., Xiu, G., and He, H.: Evaluation of unmanned aerial system in measuring lower tropospheric ozone and fine aerosol particles using portable monitors, Atmos Environ, 222, 117134, 2020.
[8] Li, X.-B., Wang, D., Lu, Q.-C., Peng, Z.-R., Fu, Q., Hu, X.-M., Huo, J., Xiu, G., Li, B., Li, C., Wang, D.-S., and Wang, H.: Three-dimensional analysis of ozone and PM2.5 distributions obtained by observations of tethered balloon and unmanned aerial vehicle in Shanghai, China, Stoch Env Res Risk A, 32, 1189-1203, 2018.
[9] Li, X.-B., Wang, D.-S., Lu, Q.-C., Peng, Z.-R., and Wang, Z.-Y.: Investigating vertical distribution patterns of lower tropospheric PM2.5 using unmanned aerial vehicle measurements, Atmos Environ, 173, 62-71, 2018.
[10]Li, X.-B., Wang, D.-S., Lu, Q.-C., Peng, Z.-R., Lu, S.-J., Li, B., and Li, C.: Three-dimensional investigation of ozone pollution in the lower troposphere using an unmanned aerial vehicle platform, Environ Pollut, 224, 107-116, 2017.
[11]Li, X.-B., Lu, Q.-C., Lu, S.-J., He, H.-D., Peng, Z.-R., Gao, Y., and Wang, Z.-Y.: The impacts of roadside vegetation barriers on the dispersion of gaseous traffic pollution in urban street canyons, Urban Forestry & Urban Greening, 17, 80-91, 2016.
[12]刘智杰, 李小兵*, 袁斌*, 莫梓伟, 谭鑫, 周俊, 王思行, 何贤俊, 邵敏: 大气边界层内挥发性有机物的垂直观测方法及应用进展, 科学通报, 66, 4098-4111, 2021.
合作作者论文
[13]Hao, Y., Zhou, J., Zhou, J. P., Wang, Y., Yang, S., Huangfu, Y., Li, X.-B., Zhang, C., Liu, A., Wu, Y., Zhou, Y., Yang, S., Peng, Y., Qi, J., He, X., Song, X., Chen, Y., Yuan, B., and Shao, M.: Measuring and modeling investigation of the net photochemical ozone production rate via an improved dual-channel reaction chamber technique, Atmos. Chem. Phys., 23, 2023.
[14]Yang, S., Yuan, B., Peng, Y., Huang, S., Chen, W., Hu, W., Pei, C., Zhou, J., Parrish, D. D., Wang, W., He, X., Cheng, C.,Li, X.-B., Yang, X., Song, Y., Wang, H., Qi, J., Wang, B., Wang, C., Wang, C., Wang, Z., Li, T., Zheng, E., Wang, S., Wu, C., Cai, M., Ye, C., Song, W., Cheng, P., Chen, D., Wang, X., Zhang, Z., Wang, X., Zheng, J., and Shao, M.: The formation and mitigation of nitrate pollution: comparison between urban and suburban environments, Atmos. Chem. Phys., 22, 4539-4556, 2022.
[15]Wang, S., Yuan, B., Wu, C., Wang, C., Li, T., He, X., Huangfu, Y., Qi, J., Li, X.-B., Sha, Q., Zhu, M., Lou, S., Wang, H., Karl, T., Graus, M., Yuan, Z., and Shao, M.: Oxygenated volatile organic compounds (VOCs) as significant but varied contributors to VOC emissions from vehicles, Atmos. Chem. Phys., 22, 9703-9720, 2022.
[16]Wang, H., Yuan, B., Zheng, E., Zhang, X., Wang, J., Lu, K., Ye, C., Yang, L., Huang, S., Hu, W., Yang, S., Peng, Y., Qi, J., Wang, S., He, X., Chen, Y., Li, T., Wang, W., Huangfu, Y., Li, X., Cai, M., Wang, X., and Shao, M.: Formation and impacts of nitryl chloride in Pearl River Delta, Atmos. Chem. Phys., 22, 14837-14858, 2022.
[17]Lu, K.-F., Wang, H.-W., Li, X.-B., Peng, Z.-R., He, H.-D., and Wang, Z.-P.: Assessing the effects of non-local traffic restriction policy on urban air quality, Transport Policy, 115, 62-74, 2022.
[18]Liu, X., Shi, X.-Q., Li, X.-B., and Peng, Z.-R.: Quantification of multifactorial effects on particle distributions at urban neighborhood scale using machine learning and unmanned aerial vehicle measurement, Journal of Cleaner Production, 378, 134494, 2022.
[19]Jiang, Y.-h., Li, B., He, H.-d., Li, X.-b., Wang, D.-s., and Peng, Z.-r.: Identification of the atmospheric boundary layer structure through vertical distribution of PM2.5 obtained by unmanned aerial vehicle measurements, Atmos Environ, 278, 119084, 2022.
[20]Chen, Y., Yuan, B., Wang, C., Wang, S., He, X., Wu, C., Song, X., Huangfu, Y., Li, X.-B., Liao, Y., and Shao, M.: Online measurements of cycloalkanes based on NO+ chemical ionization in proton transfer reaction time-of-flight mass spectrometry (PTR-ToF-MS), Atmos. Meas. Tech., 15, 6935-6947, 2022.
[21]Zheng, T., Zhang, S., Li, X.-B., Wu, Y., Jia, Y.-P., Wu, C.-L., He, H.-D., and Peng, Z.-R.: Impacts of vegetation on particle concentrations in roadside environments, Environ Pollut, 282, 117067, 2021.
[22]Zheng, T., Wang, H.-W., Li, X.-B., Peng, Z.-R., and He, H.-D.: Impacts of traffic on roadside particle variations in varied temporal scales, Atmos Environ, 253, 118354, 2021.
[23]Zheng, T., Li, B., Li, X.-B., Wang, Z., Li, S.-Y., and Peng, Z.-R.: Vertical and horizontal distributions of traffic-related pollutants beside an urban arterial road based on unmanned aerial vehicle observations, Build Environ, 187, 107401, 2021.
[24]Song, R.-f., Wang, D.-s., Li, X.-b., Li, B., Peng, Z.-r., and He, H.-d.: Characterizing vertical distribution patterns of PM2.5 in low troposphere of Shanghai city, China: Implications from the perspective of unmanned aerial vehicle observations, Atmos Environ, 265, 118724, 2021.
[25]Qi, J., Mo, Z., Yuan, B., Huang, S., Huangfu, Y., Wang, Z., Li, X., Yang, S., Wang, W., Zhao, Y., Wang, X., Wang, W., Liu, K., and Shao, M.: An observation approach in evaluation of ozone production to precursor changes during the COVID-19 lockdown, Atmos Environ, 262, 118618, 2021.
[26]Liu, Y., Wang, H., Jing, S., Zhou, M., Lou, S., Qu, K., Qiu, W., Wang, Q., Li, S., Gao, Y., Liu, Y., Li, X., Peng, Z.-R., Chen, J., and Lu, K.: Vertical Profiles of Volatile Organic Compounds in Suburban Shanghai, Adv Atmos Sci, 38, 1177-1187, 2021.
[27]Liu, X., Shi, X.-Q., He, H.-D., Li, X.-B., and Peng, Z.-R.: Vertical distribution characteristics of particulate matter beside an elevated expressway by unmanned aerial vehicle measurements, Build Environ, 206, 108330, 2021.
[28]Jia, Y.-P., Lu, K.-F., Zheng, T., Li, X.-B., Liu, X., Peng, Z.-R., and He, H.-D.: Effects of roadside green infrastructure on particle exposure: A focus on cyclists and pedestrians on pathways between urban roads and vegetative barriers, Atmospheric Pollution Research, 12, 1-12, 2021.
[29]Wang, H.-W., Li, X.-B., Wang, D., Zhao, J., He, H.-d., and Peng, Z.-R.: Regional prediction of ground-level ozone using a hybrid sequence-to-sequence deep learning approach, Journal of Cleaner Production, 253, 119841, 2020.
[30]Lu, K. F., He, H. D., Wang, H. W., Li, X.-B., and Peng, Z. R.: Characterizing temporal and vertical distribution patterns of traffic-emitted pollutants near an elevated expressway in urban residential areas, Build Environ, 172, 2020.
[31]Chen, Q., Li, X.-B., Song, R., Wang, H.-W., Li, B., He, H.-D., and Peng, Z.-R.: Development and utilization of hexacopter unmanned aerial vehicle platform to characterize vertical distribution of boundary layer ozone in wintertime, Atmospheric Pollution Research, 11, 2020.
[32]Lu, S.-J., Wang, D., Wang, Z., Li, B., Peng, Z.-R., Li, X.-B., and Gao, Y.: Investigating the Role of Meteorological Factors in the Vertical Variation in PM2.5 by Unmanned Aerial Vehicle Measurement, Aerosol and Air Quality Research, 19, 1493-1507, 2019.
[33]Li, B., Li, X.-B., Li, C., Zhu, Y., Peng, Z.-R., Wang, Z., and Lu, S.-J.: Impacts of wind fields on the distribution patterns of traffic emitted particles in urban residential areas, Transportation Research Part D-Transport and Environment, 68, 122-136, 2019.
[34]Chen, Q., Wang, D., Li, X., Li, B., Song, R., He, H., and Peng, Z.: Vertical Characteristics of Winter Ozone Distribution within the Boundary Layer in Shanghai Based on Hexacopter Unmanned Aerial Vehicle Platform, Sustainability, 11, 70262019.
[35]Li, J., Li, X.-B., Li, B., and Peng, Z.-R.: The Effect of Nonlocal Vehicle Restriction Policy on Air Quality in Shanghai, Atmosphere, 9, 2018.
[36]Wang, Z., Hu, H., Zeng, Q., and Li, X.: Profit Sharing and the Stability of Shipping Alliances Based on Game Theory, Journal of Transport Economics and Policy, 50, 245-261, 2016.
[37]龚育诚, 程鹏, 杨闻达, 韩宝彬, 余毅航, 李小兵, 袁斌, 裴成磊, 沈劲: 广州塔的高空HONO观测及其对大气氧化性的影响, 环境科学学报, 1-13, 2023.
[38]陈冰娜, 程鹏, 梁永贤, 黄冠聪, 颜敏, 黄伟超, 廖艺佳, 陈钰彬, 李小兵, 袁斌: 深圳市一次强化减排措施下的VOCs组成和来源特征, 环境科学学报, 1-11, 2023.
[39]周婕萍, 袁斌, 彭钰雯, 杨素霞, 李瑾, 刘思利, 黄山, 李小兵, 蔡嘉骅, 邵敏: 珠三角冬季臭氧污染成因分析—以2020年1月一次污染过程为例, 中国环境科学, 1-11, 2023.
[40]宋鑫, 袁斌, 王思行, 何贤俊, 李小兵, 彭钰雯, 陈钰彬, 齐吉朋, 蔡嘉骅, 黄山, 胡丹, 魏文, 刘可旋, 邵敏: 珠三角典型工业区挥发性有机物(VOCs)组成特征:含氧挥发性有机物的重要性, 环境科学, 44, 1336-1345, 2023.
[41]刘婵芳, 宋鑫, 李小兵, 宋永欣, 林丽衡, 云龙, 吴承宇, 游颖畅, 常鸣, 袁斌: 深圳市一次典型春季臭氧污染事件成因研究, 环境科学学报, 42, 62-70, 2022.
[42]鲁斯嘉, 王东生, 李小兵, 王占永, 彭仲仁, 高雅: 基于无人机平台的细颗粒物三维分布监测, 科学技术与工程, 17, 94-100, 2017.
[43]王东生, 彭仲仁, 李白, 李小兵, 修光利: 基于多旋翼无人机平台的大气PM2.5垂直结构观测技术, 装备环境工程, 16, 35-40, 2019.
[1] 国家自然科学基金委员会,青年科学基金项目,基于中间态产物约束的异戊二烯氧化过程垂直分布研究, 2024.01-2026.12,30万元,主持;
[2] 广东省科技厅,面上项目,夜间残留层大气对地面臭氧贡献的量化评估方法构建与研究,2024.01-2026.12,15万元,主持;
[3] 广州市科学技术局,广州市青年博士“启航”项目,基于观测约束的臭氧生成机制垂直分布研究,2024.01-2026.12,5万元,主持;
[4] 国家科技部,国家重点研发计划项目(课题),反应性和挥发性约束的大气含碳成分近全组分测量新方法,2023-12 至 2027-11,81/1799万元,参加(子课题负责人);
[5] 国家自然科学基金委员会,国际(地区)合作与交流项目,中国与韩国“城市呼吸”含碳组分交换通量的比较研究, 2023.07-2025.06,14.4万元,参加;
[6] 国家自然科学基金委员会,面上项目,基于植被冠层响应的大气干沉降参数化改进及其对氮沉降量估算的影响, 2023.01-2025.12,55万元,参加;
[7] 国家自然科学基金委员会,面上项目,含氧挥发性有机物(OVOCs)光解及其大气环境效应研究,2023.01-2025.12,55万元,参加;
[8] 广东省科技厅,重点领域研发计划项目,臭氧污染快速预警及精准应对关键技术研发及应用示范,2021.01-2024.01,1500万元,参加;
[9] 国家大气污染防治攻关联合中心项目,2021 年夏季重点区域PM2.5和O3污染立体综合观测研究,2021.06-2022.06,1500万,参加;
[10]深圳市生态环境局,深圳市大气VOCs来源研究及基于化学反应活性的臭氧和PM2.5协同控制对策,2021.12-2023.03,311万,参加;
[11]能源基金会(美国),广东省大气中活性挥发性有机物研究及其对空气质量管理的启示,2021.11-2022.10,63.55万(10万美元),参加;
[12]国家科技部,国家重点研发计划项目(政府间国际科技创新合作重点专项),基于通量测量的城市挥发性有机物(VOCs)排放量化与应用,2020.07-2022.06,174万,参加;
[13]广东省科技厅,软科学研究领域,广东省臭氧污染成因与防控对策研究,2020.01-2021.12,30万,参加;
[14]中国博士后科学基金会,面上项目,城市夜间边界层内挥发性有机物氧化过程的垂直分布研究,2019.09-2022.06,8万,主持。
含碳组分大气环境行为及效应研究团队
Atmospheric environmental roles and effects of carbonaceous components
Educational Background:
2014.09-2019.06 Shanghai Jiao Tong University Civil Engineering PhD
2010.09-2014.06 Jilin University Traffic Planning and Management B.E
Research Experience:
2019.07-Present Jinan University Atmospheric Chemistry Postdoctoral
1. Research Interests
Vertical observation of boundary layer pollutants
Ozone pollution research