Biography

闫才青,博士,教授,博士生导师,山东大学齐鲁青年学者,山东省青年泰山学者。

主要从事大气气溶胶的源排放、理化光学特性、来源解析及其环境、健康、气候效应等相关研究。


欢迎对相关研究方向感兴趣的本科生、硕士生、博士生、博士后随时联系加入我们课题组~~ : )


E-mail: cyan0325@sdu.edu.cn

通讯地址:山东省青岛市即墨区滨海路72号淦昌院F座336室



Education
  • 2005/09/05-2009/06/22
    青岛大学
    环境科学
  • 2009/09/05-2015/07/10
    北京大学
    环境科学
Professional Experience
  • 2020-4 — Now
     山东大学环境研究院 
  • 2019-4 — 2020-3
     环境科学系  斯德哥尔摩大学 
  • 2017-11 — 2019-3
     能源与气候研究所  德国于利希研究中心 
  • 2015-7 — 2017-9
     环境科学与工程学院  北京大学 
Publication
Research direction
Papers

(1) Yue Liu. Metrological traceability of black carbon measurement based on optical methods and its challenges in China: A review .ATMOSPHERIC RESEARCH .2023 (106854)

(2)  Characterization of carbonaceous matter emitted from residential coal and biomass combustion by experimental simulation .2023 (293)

(3)  Characteristics of intermediate volatility organic compounds emitted from inland vessels with different influential factors and implication of reduction emissions .Science of the Total Environment .2023 (904)

(4) Ruiyu Li. Key toxic components and sources affecting oxidative potential of atmospheric particulate matter using interpretable machine learning: Insights from fog episodes .JOURNAL OF HAZARDOUS MATERIALS .2023 (465)

(5) Qingpeng Meng. Variations of PM2.5-bound elements and their associated effects during long-distance transport of dust storms: Insights from multi-sites observations .Science of the total Environment .2023 (889)

(6) Haibiao Chen. Optical properties and molecular composition of wintertime atmospheric water-soluble organic carbon in different coastal cities of eastern China .science of the total environment .2023 (892)

(7) Weifeng Wu. An approach for carbon content measurement in marine sediment: Application of organic and elemental carbon analyzer .2023 ,188 (106000)

(8) Xiongfei Zhang. Spatial Distribution, Sources, Air–Soil Exchange, and Health Risks of Parent PAHs and Derivative-Alkylated PAHs in Different Functional Areas of an Oilfield Area in the Yellow River Delta, North China .Toxics .2023 ,11 (540):1-21

(9) Yue Liu. Metrological traceability of black carbon measurement based on optical methods and its challenges in China: A review .Atmospheric Research .2023 ,292

(10) Ruiyu Li. Impacts of dust events on chemical characterization and associated source contributions of atmospheric particulate matter in northern China .Environmental Pollution .2022 (316, Part 2):120597

(11) Ruizhi Zhou. Characteristics of wintertime carbonaceous aerosols in two typical cities in Beijing-Tianjin-Hebei region, China: Insights from multiyear measurements .Environmental Research .2022 (216)

(12)  Seasonal variation of water-soluble brown carbon in Qingdao, China: Impacts from marine and terrestrial emissions .Environmental Research .2022 (212):113144

(13) 陈海彪. 大气棕碳气溶胶吸光特性影响因素的研究进展 .大气与环境光学学报 .2022 ,17 (1):45-64

(14)  Refined source apportionment of residential and industrial fuel combustion in the Beijing based on real-world source profiles .Science of the total Environment .2022 (826):154101

(15) Xi Yang. Exploring sources and health risks of metals in Beijing PM2.5: Insights from long-term online measurements .Science of the Total Environment .2022 ,209 (814):151954

(16) Xiaomeng Liu. Intercomparison of equivalent black carbon (eBC) and elemental carbon (EC) concentrations with three-year continuous measurement in Beijing China .Environmental Research .2022 ,209

(17) YuanCheng. Primary nature of brown carbon absorption in a frigid atmosphere with strong haze chemistry .Environmental Research .2022 ,204 (Part C)

(18) Yue Sun. Polycyclic Aromatic Carbon: A Key Fraction Determining the Light Absorption Properties of Methanol-Soluble Brown Carbon of Open Biomass Burning Aerosols .Environmental Science & Technology .2021 ,55 (23):15724

(19) Xinxin Feng . Chemical Characterization, Source, and SOA Production of Intermediate Volatile Organic Compounds during Haze Episodes in North China .Atmosphere .2021 ,12 (11)

(20)  Fan Jiang. Dual-carbon isotope constraints on source apportionment of black carbon in the megacity Guangzhou of the Pearl River Delta region, China for 2018 autumn season .Environmental Pollution .2022 ,294 (294)

(21) Xing Li. PM2.5-bound elements in Hebei Province, China: Pollution levels, source apportionment and health risks .Science of the total Environment .2021 (806):150440

(22) Yuan Cheng. Strong impacts of legitimate open burning on brown carbon aerosol in Northeast China .Environmental Science & Technology Letters .2021 ,8 (9):732-738

(23) 周睿智. 山东省大气细颗粒物来源解析的研究现状与展望 .中国环境科学 .2021 ,41 (7):3029-3042

(24) Caiqing Yan. Identification of PM2.5 sources contributing to both brown carbon and reactive oxygen species generation in winter in Beijing, China .Atmospheric Environment .2021 ,246 :118069

(25)  Carbonaceous matter in the atmosphere and glaciers of the Himalayas and the Tibetan plateau: An investigative review .Environment International .2020 (146):106281

(26)  Understanding sources of fine particulate matter in China .Philosophical Transactions A .2020 ,378 (20190325):20190325

(27) Yuanyuan Liang,Huan Wang. Spatial distribution and seasonal variations of atmospheric organophosphate esters (OPEs) in Tianjin, China based on gridded field observations .Environmental Pollution .2020 ,263 :114460

(28) Caiqing Yan. Molecular Characterization of Water‐Soluble Brown Carbon Chromophores in Beijing, China .Journal of Geophysical Research Atmospheres .2020 (125):e2019JD032018

(29) Yali Jin. Significant contribution of primary sources to water-soluble organic carbon during spring in Beijing, China .Atmosphere .2020 ,11 (4):395.

(30) Boya Zhang,Tian Zhou. Comparison of water-soluble inorganic ions and trace metals in PM2.5 between online and offline measurements in Beijing during winter. .Atmospheric Pollution Research .2019 ,10 (6):1755-1765

(31) Min Cui,Cheng Li. Molecular characterization of polar organic aerosol constituents in off-road engine emissions using Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR MS): Implications for source apportionment. .Atmospheric Chemistry and Physics .2019 ,19 :13945–13956

(32) Caiqing Yan. Characterization of carbon fractions in carbonaceous aerosols from typical fossil fuel combustion sources. .Fuel .2019 ,254 :115620

(33) Fangping Yan. Deposition of organic and black carbon: direct measurements at three remote stations in the Himalayas and Tibetan Plateau. .Journal of Geophysical Research: Atmospheres .2019 ,124 :9702–9715

(34) Yue Liu. High time resolution source apportionment of PM2.5 in Beijing with multiple models .Atmospheric Chemistry and Physics .2019 ,19 (9):6595-6609

(35) Zhenying Xu. High efficiency of livestock ammonia emission controls on alleviating particulate nitrate during a severe winter haze episode in northern China .Atmospheric Chemistry and Physics .2019 ,19 (8):5605-5613

(36) Caiqing Yan. Characterization of saccharides and associated usage in determining biogenic and biomass burning aerosols in atmospheric fine particulate matter in the North China Plain .Science of the total Environment .2019 ,650 (2):2939-2950

(37) Xiaoying Li,Xiaobi Michelle Kuang#. Oxidative potential by PM2.5 in the North China Plain: Generation of Hydroxyl Radical. .Environmental Science and Technology .2018 ,53 (1):512-520

(38) Min Cui. Emissions and characteristics of particulate matter from rainforest burning in the Southeast Asia .Atmospheric Environment .2018 ,191 :194-204

(39) Jinting Yu. Potassium: A tracer for biomass burning in Beijing? .Aerosol and Air Quality Research .2018 ,18 :2447-2459

(40) Yue Liu,Caiqing Yan#. Source apportionment of black carbon during winter in Beijing. .Science of the Total Environment .2018 ,618 :531-541

(41) Caiqing Yan. Residential coal combustion as a source of levoglucosan in China .Environmental Science & Technology .2017 ,52 (3):1665–1674

(42) 闫才青. 机动车源对细颗粒物的贡献估算方法综述 .科学通报 .2017 ,62 (12):1256-1273

(43)  Understanding PM2.5 sources in China: challenges and perspectives .National Science Review .2017 ,4 (6):801-803

(44) 郭晓霜. 利用单颗粒气溶胶质谱仪研究南黄海气溶胶的变化特征 .北京大学学报(自然科学版) .2017 ,53 (6):1042-1052

(45) Yujiao Zhu,Caiqing Yan#. Simultaneous measurements of new particle formation in 1-second time resolution at a street site and a rooftop site .Atmospheric Chemistry and Physics .2017 ,17 :9469–9484

(46) Caiqing Yan. Biomass burning sources in China .Springer .2017 (16):135-166

(47) Mingxu Liu. Fine particle pH during severe haze episodes in northern China .Geophysical Research Letters .2017 ,44 :5213-5221

(48) Yue Liu,Caiqing Yan#. Sources and spatial distribution of particulate polycyclic aromatic hydrocarbons in Shanghai, China .Science of the Total Environment .2017 ,584-585 :307-317

(49) Caiqing Yan. mportant fossil source contribution to brown carbon aerosol in Beijing during winter .Scientific Report .2017 ,7 :43182

(50) Min Cui. Measurement on PM and its chemical compositions for real-world emissions from non-road and on-road diesel vehicles .Atmospheric Chemistry and Physics .2017 ,17 :6779–6795

(51) 周 甜. 华北平原城乡夏季 PM2.5 组成 特征及来源研究 .中国环境科学 .2017 ,37 (9):3227~3236

(52)  PM2.5 Source Apportionment in China .2016 :293-314

(53) Min Cui. Chemical composition of PM2.5 from two tunnels with different vehicular fleet characteristics .Science of The Total Environment .2016 ,550 :123-132

(54) Xiaoying Li. Modeled Deposition of Fine Particles in Human Airway in Beijing, China .Atmospheric Environment .2016 ,124 :387-395

(55) Caiqing Yan. Commuter exposure to particulate matter and particle-bound PAHs in three transportation modes in Beijing, China. .Environmental Pollution .2015 ,204 :199-206

(56) Nu Yu. Characterization of ultrafine particles and other traffic related pollutants near roadways in Beijing .Aerosol and Air Quality Research .2015 ,15 (4):1261-1269

(57) Jing Cai. Application and process of single particle aerosol time-of-flight mass spectrometry in fine particulate matter research .Chemical Journal of Analytical Chemistry .2015 ,43 (5):765-774

(58) 蔡靖. 单颗粒气溶胶飞行时间质谱仪在细颗粒物研究中的应用和进展 .分析化学 .2015 ,43 (5):765-774

(59) Caiqing Yan. Chemical characteristics and light absorbing property of water-soluble organic carbon in Beijing: .Atmospheric Environment .2015 ,121 :4-12

(60)  Regionally-varying combustion sources of the January 2013 severe haze events over China .Environment Science & Technology .2015 ,49 (4):2038–2043

(61) 张延君. PM2.5 源解析方法的比较与评述 .科学通报 .2015 ,60 (2):109-121

(62) 郑玫. 中国 PM2.5 来源解析方法综述 .北京大学学报(自然科学版) .2014 ,50 (6):1141-1154

(63) 付怀于. 在线单颗粒气溶胶质谱 SPAMS 对细颗粒物中主要组分提取方法的研究 .环境科学 .2014 ,35 (11):4070-4077

(64) 闫才青. 大气棕色碳的研究进展与发展方向 .环境科学 .2014 ,35 (11):4404-4414

(65) 郭晓霜. 结合外场观测分析珠三角二次有机气溶胶的数值模拟 .环境科学 .2014 ,33 (5):1654-1661

(66) 郑玫. 北京市公共交通环境多环芳烃的个体暴露特征 .环 境 科 学 研 究 .2014 ,27 (9):965-974

(67)  Sources of primary and secondary organic aerosol and their diurnal variations .Journal of Hazardous Materials .2014 ,264 :536-544

(68) 郑 玫. 二次有机气溶胶估算方法的研究进展 .中国环境科学 .2014 ,34 (3):555~564

(69) 胡伟. 珠江三角洲地区亚运期间颗粒物污染特征 .环境科学学报 .2013 ,33 (7):1815- 1823

(70) 郑玫. 上海 PM2.5 工业源谱的建立 .中国环境科学 .2013 ,33 (8):1354~1359

(71) 王莉华. 气溶胶 OCEC切割点确定方法改进及应用 .环境科学 .2012 ,33 (9):2946-2952

Student Information
  • 唐楚言  2024/01/24 Hits:[] Times
  • 陈海彪  2023/09/23 Hits:[] Times
  • 李瑞玉  2023/09/23 Hits:[] Times
  • 孟庆鹏  2023/09/23 Hits:[] Times
  • 杨燕军  2023/09/23 Hits:[] Times
  • 房丽  2023/09/23 Hits:[] Times
  • 周睿智  2023/09/23 Hits:[] Times
  • 周陶美子  2023/09/23 Hits:[] Times
  • 孙宏蕾  2023/06/15 Hits:[] Times
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