about
Continued emissions of carbon tetrachloride from the United States nearly two decades after its phaseout for dispersive usesEffects of anthropogenic emissions on aerosol formation from isoprene and monoterpenes in the southeastern United StatesChemical data quantify Deepwater Horizon hydrocarbon flow rate and environmental distribution.Intermediate-volatility organic compounds: a large source of secondary organic aerosol.Highly functionalized organic nitrates in the southeast United States: Contribution to secondary organic aerosol and reactive nitrogen budgets.Inter-comparison of laser photoacoustic spectroscopy and gas chromatography techniques for measurements of ethene in the atmosphere.Airborne measurements of ethene from industrial sources using laser photo-acoustic spectroscopy.Gasoline cars produce more carbonaceous particulate matter than modern filter-equipped diesel cars.Isocyanic acid in the atmosphere and its possible link to smoke-related health effectsAir quality implications of the Deepwater Horizon oil spill.Organosulfates as tracers for secondary organic aerosol (SOA) formation from 2-methyl-3-buten-2-ol (MBO) in the atmosphereMeasurements of volatile organic compounds in the earth's atmosphere using proton-transfer-reaction mass spectrometry.Review of Urban Secondary Organic Aerosol Formation from Gasoline and Diesel Motor Vehicle Emissions.High winter ozone pollution from carbonyl photolysis in an oil and gas basin.Validation of atmospheric VOC measurements by proton-transfer-reaction mass spectrometry using a gas-chromatographic preseparation method.Source identification of reactive hydrocarbons and oxygenated VOCs in the summertime in Beijing.Atmospheric fates of Criegee intermediates in the ozonolysis of isoprene.Nitryl chloride and molecular chlorine in the coastal marine boundary layer.Mass spectral analysis of organic aerosol formed downwind of the Deepwater Horizon oil spill: field studies and laboratory confirmations.Vertically resolved measurements of nighttime radical reservoirs in Los Angeles and their contribution to the urban radical budget.Source signature of volatile organic compounds from oil and natural gas operations in northeastern Colorado.Modeling the radical chemistry in an oxidation flow reactor: radical formation and recycling, sensitivities, and the OH exposure estimation equation.Two additional advantages of proton-transfer ion trap mass spectrometry.Proton-transfer-reaction mass spectrometry as a new tool for real time analysis of root-secreted volatile organic compounds in Arabidopsis.Observational insights into aerosol formation from isoprene.Online volatile organic compound measurements using a newly developed proton-transfer ion-trap mass spectrometry instrument during New England Air Quality Study--Intercontinental Transport and Chemical Transformation 2004: performance, intercomparisLaboratory studies on secondary organic aerosol formation from crude oil vapors.Contribution of human-related sources to indoor volatile organic compounds in a university classroom.Identification and Quantification of 4-Nitrocatechol Formed from OH and NO3 Radical-Initiated Reactions of Catechol in Air in the Presence of NOx: Implications for Secondary Organic Aerosol Formation from Biomass Burning.Proton-Transfer-Reaction Mass Spectrometry: Applications in Atmospheric Sciences.Volatile chemical products emerging as largest petrochemical source of urban organic emissions.Instrumentation and Measurement Strategy for the NOAA SENEX Aircraft Campaign as Part of the Southeast Atmosphere Study 2013.Formaldehyde production from isoprene oxidation across NOx regimes.Observational constraints on glyoxal production from isoprene oxidation and its contribution to organic aerosol over the Southeast United States.Modeling Ozone in the Eastern U.S. using a Fuel-Based Mobile Source Emissions InventoryNocturnal loss of NOxduring the 2010 CalNex-LA study in the Los Angeles BasinWRF-Chem simulation of NOx and O3 in the L.A. basin during CalNex-2010Evidence of rapid production of organic acids in an urban air massEmissions of C6-C8aromatic compounds in the United States: Constraints from tall tower and aircraft measurementsReal-time measurements of secondary organic aerosol formation and aging from ambient air in an oxidation flow reactor in the Los Angeles area
P50
Q28602314-CA3FC28F-F54B-41D4-9572-D7B188E606D1Q28652337-D6B3D46E-A604-4EC9-B0B9-78864A268478Q30459462-9740F73A-8292-4A92-9CA3-7C372C2816E9Q30868087-59E86EC7-93A3-4B48-9E05-33735A9E3E5AQ31039931-C083E97B-87FB-42B8-9F24-401075078B45Q33220437-EDDB6AD0-BFC6-482B-AB3E-763B2F2DA667Q33447546-3E502199-E39C-448D-A04B-895405770C5DQ33902964-7C554B5A-B72D-4E06-9D8D-85B1DAD5153FQ35021934-F75A145F-57A9-4010-9381-1A06EBDAAE8AQ36483678-AD5B1261-FDFA-40A0-B6CA-B30A15B90B12Q36570691-A304B0AC-F7C0-42A7-ACBA-5952F6BD9A8FQ36677148-18D26AC9-99FE-4448-93D7-772D372E3849Q39045415-E52EC2AE-64AC-4B97-B743-BF38F23A9707Q39128937-70851948-17DF-41AF-87DD-C870EF1FBF71Q39653328-71818947-C20E-46C2-9B9C-BEE2A2C01891Q39873399-E6990FCE-846A-4704-BED9-4E6D0A7A092AQ39883625-7FF07A6A-1361-4705-AFD4-63634FA5FC9BQ40027547-2209CA7F-2BF3-464F-851B-2A9129465D19Q40048404-BB668629-E997-4907-802B-7C3D25B109E2Q40065075-30C9BAB3-CC52-48FD-B364-B4F0F61E8C0EQ40085623-1DE7B3BD-B669-430C-8206-517A6CD8FEC3Q41193288-C871B42A-EB0E-4CB7-86D1-F702681A78CDQ44702255-43090B79-DE26-4129-AAB9-56C8AA221870Q44894558-FB8FAE3E-91A1-4BAC-952F-AD339B302111Q46541869-EE64C609-E4CC-4BCB-B41C-2BA2BE221497Q46636865-D4754C04-A31A-4AB3-B472-E31177E753B3Q46987826-2155FE5D-AF5A-4554-A57B-2B5949332C95Q47955751-AD970052-5639-4D6B-A21D-99BA28C16383Q48201311-567CD93F-B8F5-4BA9-82CF-FE2E75526A22Q48245973-9A61B87D-69D4-4C63-98A4-3DF7629700B1Q49959595-B3BFBE90-0D3A-489F-842A-183DF0A3659FQ54965043-E3A5A556-2A76-4AB6-AB19-C99D9561E44DQ54978343-FB5C0850-EEE8-4A13-88FD-03487DE80830Q55094776-CE83641B-29C9-4B0B-88FD-4D749FB4AE90Q57177284-2B919D86-D7E4-4DF6-800A-325400B1A54CQ57445211-18715D87-A23B-45A1-9F79-CA182AFACFBBQ57445219-95CF402E-71DE-420B-BD13-FE2FDC82E623Q57445223-40A5692A-BB87-40EE-9759-BB3239DC888DQ57792948-EA2C7FF0-D8E4-43F0-96BE-934515973B05Q57869633-8F866BE0-C748-4267-8C6C-1D944B333C63
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Joost de Gouw
@ast
Joost de Gouw
@en
Joost de Gouw
@es
Joost de Gouw
@nl
Joost de Gouw
@sl
type
label
Joost de Gouw
@ast
Joost de Gouw
@en
Joost de Gouw
@es
Joost de Gouw
@nl
Joost de Gouw
@sl
prefLabel
Joost de Gouw
@ast
Joost de Gouw
@en
Joost de Gouw
@es
Joost de Gouw
@nl
Joost de Gouw
@sl
P106
P21
P31
P496
0000-0002-0385-1826