Selected Publications
Field and laboratory evaluation of a high time resolution x-ray fluorescence instrument for determining the elemental composition of ambient aerosols.
Tremper, A. H., Font, A., Priestman, M., Hamad, S. H., Chung, T. C., Pribadi, A., … & Green, D. C. (2018).
Atmospheric Measurement Techniques, 11(6), 3541-3557.
Environmental Technology Verification Report.
Battelle (2012).
EPA
Elemental composition of ambient aerosols measured with high temporal resolution using an online XRF spectrometer.
Furger, M., Minguillón, M. C., Yadav, V., Slowik, J. G., Hüglin, C., Fröhlich, R., … & Prévôt, A. S. (2017).
Atmospheric Measurement Techniques, 10(6), 2061-2076.
Field evaluation of a near–real time elemental monitor and identification of element sources observed at an air monitoring supersite in Korea.
Park, S. S., Cho, S. Y., Jo, M. R., Gong, B. J., Park, J. S., & Lee, S. J. (2014).
Atmospheric Pollution Research, 5(1), 119-128.
PM 2.5 water-soluble elements in the southeastern United States: automated analytical method development, spatiotemporal distributions, source apportionment, and implications for heath studies.
Fang, T., Guo, H., Verma, V., Peltier, R. E., & Weber, R. J. (2015).
Atmospheric Chemistry and Physics, 15(20), 11667-11682.
Source apportionment of urban particulate matter using hourly resolved trace metals, organics, and inorganic aerosol components.
Jeong, C. H., Wang, J. M., & Evans, G. J. (2016).
Atmospheric Chemistry and Physics Discussions, 1-32.
Advanced receptor modeling of near–real–time, ambient PM2. 5 and its associated components collected at an urban–industrial site in Toronto, Ontario.
Sofowote, U. M., Rastogi, A. K., Debosz, J., & Hopke, P. K. (2014).
Atmospheric Pollution Research, 5(1), 13-23.
Ground-based characterization of aerosol spectral optical properties of haze and Asian dust episodes under Asian continental outflow during winter 2014.
Jung, J., Yu, J., Lyu, Y., Lee, M., Hwang, T., & Lee, S. (2017).
Atmospheric Chemistry and Physics, 17(8), 5297-5309.
More Publications by Year
Date | Country | Type | Publisher | Application | Title | Link |
---|---|---|---|---|---|---|
11/1/20 | India | Paper | Science of The Total Environment | SA/Monitoring | Real-time measurement and source apportionment of elements in Delhi's atmosphere | Click Here |
9/1/20 | China | Paper | Atmospheric Research | Monitoring and Source Apportionment | Nocturnal PM2.5 explosive growth dominates severe haze in the rural North China Plain | Click Here |
7/1/20 | China | Paper | Atmospheric Environment | Monitoring and Source Apportionment | Evolution of source contributions during heavy fine particulate matter (PM2.5) pollution episodes in eastern China through online measurements | Click Here |
6/1/20 | China | Paper | China Environmenatal Science | Comparison | Comparison of results of different particle source analysis methods during APEC in Beijing | Click Here |
5/1/20 | China | Paper | Journal of Environmental Sciences | Source Apportionment | Pollution levels, composition characteristics and sources of atmospheric PM2.5 in a rural area of the North China Plain during winter | Click Here |
5/1/20 | India | Paper | Environmental Science & Technology | SA/Monitoring | Real-Time Measurements of PM2.5 Oxidative Potential using Dithiothreitol (DTT) Assay in Delhi, India | Click Here |
4/1/20 | United States | Paper | Atmospheric Environment Volume 6 | Source Apportionment | Assessment of particulate toxic metals at an Environmental Justice community | Click Here |
3/1/20 | China | Paper | Ecotoxicology and Environmental Saftey | Health | Associations between fine particulate matter constituents and daily cardiovascular mortality in Shanghai, China | Click Here |
3/1/20 | China | Paper | Chemosphere | Composition and Source Apportionment | Investigating the characteristics and source analyses of PM2.5 seasonal variations in Chengdu, Southwest China | Click Here |
2/1/20 | China | Paper | Atmospheric Environment Volume 222 | SA/Monitoring | In situ continuous observation of hourly elements in PM2. 5 in urban beijing, China: Occurrence levels, temporal variation, potential source regions and health risks | Click Here |
2/1/20 | China | Paper | Journal of Environmental Sciences | Composition | Observation of chemical components of PM2.5 and secondary inorganic aerosol formation during haze and sandy haze days in Zhengzhou, China | Click Here |
2/1/20 | Switzerland | Paper | Atmospheric Chemistry and Physics | Source Apportionment | Source apportionment of highly time-resolved elements during a firework episode from a rural freeway site in Switzerland | Click Here |
1/1/20 | Switzerland | Paper | Atomoshperic Environment: Volume 5 | Development | Automated alternating sampling of PM10 and PM2.5 with an online XRF spectrometer | Click Here |
12/1/19 | Canada | Paper | Atmospheric Environment | Health | Medical air in healthcare institutions: A chemical and biological study | Click Here |
12/1/19 | China | Paper | Science of the Total Environment, Volume 615 | Health | Particulate air pollution and ischemic stroke hospitalization: How the associations vary by constituents in Shanghai, China | Click Here |
11/1/19 | Canada | Paper | Science of the Total Environment | Indoor vs Outdoor Comp | Indoor measurements of air pollutants in residential houses in urban and suburban areas: Indoor versus ambient concentrations | Click Here |
11/1/19 | China | Paper | Atmospheric Pollution Research Volume 10 | Comparison | Comparison of water-soluble inorganic ions and trace metals in PM2. 5 between online and offline measurements in Beijing during winter | Click Here |
10/1/19 | China | Paper | Journal of Geophysical Research: Atmospheres Volume 124, Issue 21 | Source Apportionment | Characteristics and Sources of Hourly Trace Elements in Airborne Fine Particles in Urban Beijing, China | Click Here |
8/1/19 | China | Paper | Environmental Pollution | Source Apportionment | Characteristics and formation mechanism of persistent extreme haze pollution events in Chengdu, southwestern China | Click Here |
7/1/19 | Italy | Paper | Atmoshpheric Environment Volume 3 | Source Apportionment | Source apportionment of fine PM by combining high time resolution organic and inorganic chemical composition datasets | Click Here |
5/1/19 | China | Paper | Atmosphere Chemistry and Physics | Source Apportionment | Characteristics of atmospheric mercury in East China: implication on sources and formation of mercury species over a regional transport intersection zone | Click Here |
4/1/19 | China | Paper | Science of the Total Environment | Composition | Insight into the formation of secondary inorganic aerosol based on high-time-resolution data during haze episodes and snowfall periods in Zhengzhou, China | Click Here |
3/1/19 | China | Paper | Journal of Environmental Science | Source Apportionment | Analysis of the characteristics and sources of PM 2.5 chemical components in Taiyuan City in winter | Click Here |
2/1/19 | Canada | Paper | Atmospheric Environment Volume 198 | Composition | Temporal and spatial variability of traffic-related PM2.5 sources: Comparison of exhaust and non-exhaust emissions | Click Here |
1/1/19 | Canada | Paper | Atmospheric Environment Volume 1 | Source Apportionment | Heavy metals in the near-road environment: Results of semi-continuous monitoring of ambient particulate matter in the greater Toronto and Hamilton area | Click Here |
1/1/19 | China | Paper | Ecology and Environmental Sciences | Analysis | On-line measurement and source characteristics of metals in PM2.5 urban Shenzhen | Click Here |
1/1/19 | Canada | Report | Southern Ontario for Atmospheric Aerosol Reseach | Comparison (instrument) | Near-Road Air Pollution Pilot Study | Click Here |
12/1/18 | United States | Paper | The SAO/NASA Astrophysics Data System (ADS) | Source Apportionment | Source characterization and temporal variation of ambient metals and elements: results from a year-long monitoring with a near-real time multi-metals monitor in an industrial area of the Los Angeles Basin | Click Here |
9/1/18 | China | Paper | Aerosol and Air Quality Research | Source Apportionment | Potassium: A Tracer for Biomass Burning in Beijing? | Click Here |
7/1/18 | China | Paper | Science of the Total Environment Volumn 628-629 | Source Apportionment | Characterization and source identification of fine particulate matter in urban Beijing during the 2015 Spring Festival | Click Here |
7/1/18 | China | Paper | China Environmental Science | Source Apportionment | Cause Analysis of Two Typical Heavy Air Pollution Processes in Zhengzhou City | Click Here |
6/1/18 | China | Paper | Environmental Geochemistry and Health | Pollutant | Characterizing the composition and evolution of firework-related components in air aerosols during the Spring Festival | Click Here |
6/1/18 | Taiwan | Paper | International Journal of Environmental Reseach and Public Health | Source Apportionment | Application of Positive Matrix Factorization in the Identification of the Sources of PM2.5 in Taipei City | Click Here |
4/1/18 | China | Paper | Journal of Geophysical Research: Atmospheres Volume 123, Issue 10 | Source Apportionment | Source Apportionment of PM2.5 Using Hourly Measurements of Elemental Tracers and Major Constituents in an Urban Environment: Investigation of Time‐Resolution Influenc | Click Here |
3/1/18 | China | Paper | Science of the Total Environment, Volume 618 | Source Apportionment | Source apportionment of black carbon during winter in Beijing | Click Here |
3/1/18 | China | Paper | Atmospheric Chemistry and Physics | Source Apportionment | A Preliminary Assessment of the Impacts of 2 Multiple Temporal-scale Variations in Particulate 3 Matter on its Source Apportionment | Click Here |
1/1/18 | Canada | Paper | Atmoshpheric Environment Volume 173 | Comparison (site) | Understanding the PM2.5 imbalance between a far and near-road location: Results of high temporal frequency source apportionment and parameterization of black carbon | Click Here |
12/1/17 | London | Paper | Atomoshperic Measurement Techniques/Kings College | Comparision | Field and laboratory evaluation of a high time resolution x-ray fluorescence instrument for determining the elemental composition of ambient aerosols | Click Here |
11/1/17 | China | Paper | Environmental Pollution, Volume 230 | Source Apportionment | Characteristics and source apportionment of PM2.5 during persistent extreme haze events in Chengdu, southwest China | Click Here |
8/1/17 | United States | Dissertation | Georgia Instuite of Technology | Health and Source Apportionhttps://smartech.gatech.edu/bitstream/handle/1853/58680/FANG-DISSERTATION-2017.pdf?sequence=1&isAllowed=y | UNDERSTANDING THE SOURCES, ATMOSPHERIC PROCESSES, HEALTH ASSOCIATIONS, AND SIZE DISTRIBUTION OF AEROSOL OXIDATIVE POTENTIAL | Click Here |
7/1/17 | China | Paper | Environmental Pollution, Volume 253 | Source Apportionment | PM2. 5 elements at an urban site in Yangtze River Delta, China: High time-resolved measurement and the application in source apportionment | Click Here |
7/1/17 | China | Paper | Aerosol and Air Quality Research | Source Apportionment | Characteristics and source Analysis of trace Elements in PM2.5 in the Urban Atmosphere of Wuhan in Spring | Click Here |
6/1/17 | Switzerland | Paper | Atomoshperic Measurement Techniques | Compositiion | Elemental composition of ambient aerosols measured with high temporal resolution using an online XRF spectrometer | Click Here |
12/1/16 | China | Paper | The SAO/NASA Astrophysics Data System (ADS) | Source Apportionment | Sources and Depositions of Atmospheric Trace Metals in PM2.5 over East China Seas and Northwestern Pacific Ocea | Click Here |
11/1/16 | United States | Paper | Atmospheric Environment Volume 144 | Chemical Comparision | Dose-dependent intracellular reactive oxygen and nitrogen species (ROS/RNS) production from particulate matter exposure: comparison to oxidative potential and chemical composition | Click Here |
9/1/16 | Canada | Paper | Atmospheric Environment | Mathematics and Analysis | Bayesian estimation of airborne fugitive emissions using a Gaussian plume model | Click Here |
8/1/16 | China | Paper | Atmosphperic Environment | Monitoring and Source Apportionment | Characteristics and sensitivity analysis of multiple-time-resolved source patterns of PM2.5 with real time data using Multilinear Engine 2 | Click Here |
4/1/16 | Canada | Paper | Atmospheric Chemistry and Physics | Source Apportionment | Source Apportionment of Urban Particulate Matter using Hourly Resolved Trace Metals, Organics, and Inorganic Aerosol Components | Click Here |
3/1/16 | China | Paper | Chinese Science Bulletin | Comparison | Overview of the development and application of multi-time resolution source apportionment for particulate matters | Click Here |
11/1/15 | England | Paper | Air Quality, Atmosphere & Health | Health | Evaluation of health risk associated with fireworks activity at Central London | Click Here |
10/1/15 | China | Paper | Journal of Geophysical Research: Atmospheres Volume 123, Issue 11 | Source Apportionment | Characteristic and Source Analysis of Metal Pollution in Autumn and Winter in Chongqing Area under Haze | Click Here |
10/1/15 | China | Paper | Science of the Total Environment, Volume 542 | Source Apportionment | Insights into the chemical characterization and sources of PM2.5 in Beijing at a 1-h time resolution | Click Here |
1/1/15 | Canada | Dissertation | Univerity of Toronto | Source Apportionment | Sources of Particulate Matter in the Athabasca Oil Sands Region: Investigation through a Comparison of Trace Metal Measurement Techniques | Click Here |
11/1/14 | China | Paper | China National Knowledge Infustructer | Analysis | Analysis of metal element composition in PM_(2.5) in the main city of Chongqing | Click Here |
7/1/14 | United States | Paper | Atmosphere Chemistry and Physics | SA/Monitoring | Reactive oxygen species associated with water-soluble PM2.5 in the southeastern United States: spatiotemporal trends and source apportionment | Click Here |
6/1/13 | United States | Report | Bay Area Quality Management District | Comparison | Review of Current Air Monitoring Capabilities near Refineries in the San Francisco Bay Area | Click Here |
5/1/12 | United States | Presentation | National Air Quality Conference 2012 | Monitoring | Semi-continuous metals monitoring in Ohio industrial communities | Click Here |
10/1/19 | Canada/US | Paper | Pure and Applied Geophysics | Simultaneous Model Calibration and Source Inversion in Atmospheric Dispersion Models | Click Here | |
9/1/16 | United States | Paper | Science of the Total Environment | Development and evaluation of a novel monitor for online measurement of iron, manganese, and chromium in ambient particulate matter (PM) | Click Here | |
4/1/15 | Italy | Paper | X-Ray Spectrometry/ Volume 44, Issue 4 | Feasibility study of ED‐XRF analysis of atmospheric particulate matter samples collected with high time resolution | Click Here |