His main research concerns Environmental chemistry, Volatile organic compound, Ozone, Meteorology and Mixing ratio. His Environmental chemistry study incorporates themes from Atmosphere and Atmosphere of Earth. He combines subjects such as Toluene, Vegetation, Air quality index and Atmospheric chemistry with his study of Volatile organic compound.
His study in Air quality index is interdisciplinary in nature, drawing from both Total organic carbon, Nitrate and Alkyl. His Ozone research includes themes of Plume and Petrochemical. In general Meteorology, his work in Troposphere is often linked to Mixing and Kinetic energy linking many areas of study.
Paul D. Goldan mostly deals with Environmental chemistry, Air quality index, Ozone, Atmospheric sciences and Mixing ratio. His Environmental chemistry research is multidisciplinary, incorporating elements of Sulfur, Atmospheric chemistry, Mineralogy, Pollution and NOx. His Air quality index research incorporates elements of Air pollution, Total organic carbon, Volatile organic compound and Aerosol.
In his study, Photochemistry and Benzene is strongly linked to Hydrocarbon, which falls under the umbrella field of Ozone. In the subject of general Atmospheric sciences, his work in Troposphere is often linked to Latitude, thereby combining diverse domains of study. As part of one scientific family, Paul D. Goldan deals mainly with the area of Meteorology, narrowing it down to issues related to the Nitrogen oxide, and often Dinitrogen pentoxide.
His primary areas of study are Environmental chemistry, Air quality index, Aerosol, Ozone and Volatile organic compound. His Environmental chemistry research includes elements of Trace gas, Mixing ratio, Hydroxyl radical, NOx and Nitrate. His research on Air quality index concerns the broader Meteorology.
His Aerosol research is multidisciplinary, relying on both Atmosphere and Total organic carbon. Paul D. Goldan interconnects Air mass and Formaldehyde in the investigation of issues within Ozone. His research integrates issues of Toluene and Acetylene in his study of Volatile organic compound.
His primary areas of investigation include Air quality index, Environmental chemistry, Ozone, Volatile organic compound and Aerosol. Air quality index is a subfield of Meteorology that Paul D. Goldan explores. His work carried out in the field of Environmental chemistry brings together such families of science as Reactivity and Formaldehyde.
His Ozone research is multidisciplinary, incorporating perspectives in Boundary layer, Liquefied petroleum gas, Arctic and Petrochemical. His research in Volatile organic compound intersects with topics in Mixing ratio and Acetylene. His Mixing ratio research incorporates elements of Organic matter, Total organic carbon, Toluene, Particulates and Pollution.
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Emissions of volatile organic compounds from vegetation and the implications for atmospheric chemistry
Fred Fehsenfeld;Jack Calvert;Ray Fall;Paul Goldan.
Global Biogeochemical Cycles (1992)
Budget of organic carbon in a polluted atmosphere: Results from the New England Air Quality Study in 2002
J. A. de Gouw;J. A. de Gouw;A. M. Middlebrook;C. Warneke;C. Warneke;P. D. Goldan.
Journal of Geophysical Research (2005)
Effect of petrochemical industrial emissions of reactive alkenes and NOx on tropospheric ozone formation in Houston, Texas
T. B. Ryerson;M. Trainer;W. M. Angevine;W. M. Angevine;C. A. Brock;C. A. Brock.
Journal of Geophysical Research (2003)
Observations of Ozone Formation in Power Plant Plumes and Implications for Ozone Control Strategies
T. B. Ryerson;M. Trainer;J. S. Holloway;J. S. Holloway;D. D. Parrish.
Validation of atmospheric VOC measurements by proton-transfer-reaction mass spectrometry using a gas-chromatographic preseparation method.
Carsten Warneke;Joost A De Gouw;William C Kuster;Paul D Goldan.
Environmental Science & Technology (2003)
Source apportionment of ambient volatile organic compounds in Beijing.
Yu Song;Min Shao;Ying Liu;Sihua Lu.
Environmental Science & Technology (2007)
Hydrocarbon measurements in the southeastern United States: The Rural Oxidants in the Southern Environment (ROSE) Program 1990
Paul D. Goldan;William C. Kuster;Fred C. Fehsenfeld;Stephen A. Montzka.
Journal of Geophysical Research (1995)
Proton-Transfer-Reaction Mass Spectrometry as a New Tool for Real Time Analysis of Root-Secreted Volatile Organic Compounds in Arabidopsis
Marco Steeghs;Harsh Pal Bais;Joost de Gouw;Paul Goldan.
Plant Physiology (2004)
Determination of urban volatile organic compound emission ratios and comparison with an emissions database
Carsten Warneke;Carsten Warneke;S. A. McKeen;J. A. de Gouw;J. A. de Gouw;P. D. Goldan.
Journal of Geophysical Research (2007)
Emissions lifetimes and ozone formation in power plant plumes
T. B. Ryerson;M. P. Buhr;G. J. Frost;P. D. Goldan.
Journal of Geophysical Research (1998)
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