Non-OH chemistry in oxidation flow reactors for the study of atmospheric chemistry systematically examined by modeling
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K. Tsigaridis | J. Jimenez | W. Brune | Zhe Peng | R. Li | H. Stark | D. Day | B. Palm | A. Ortega | Weiwei Hu | Weiwei Hu | J. Jimenez | Harald Stark | Zhe Peng | Rui Li | Jose L. Jimenez
[1] S. Nizkorodov,et al. Effective absorption cross sections and photolysis rates of anthropogenic and biogenic secondary organic aerosols , 2016 .
[2] J. D. de Gouw,et al. Modeling the radical chemistry in an oxidation flow reactor: radical formation and recycling, sensitivities, and the OH exposure estimation equation. , 2016, The journal of physical chemistry. A.
[3] Manoj Kumar,et al. Red-Light-Induced Decomposition of an Organic Peroxy Radical: A New Source of the HO2 Radical. , 2015, Angewandte Chemie.
[4] J. Jimenez,et al. HO x radical chemistry in oxidation flow reactors with low-pressure mercury lamps systematically examined by modeling , 2015 .
[5] J. Jimenez,et al. In situ secondary organic aerosol formation from ambient pine forest air using an oxidation flow reactor , 2015 .
[6] A. Goldstein,et al. Characterization of a real-time tracer for isoprene epoxydiols-derived secondary organic aerosol (IEPOX-SOA) from aerosol mass spectrometer measurements , 2015 .
[7] H. Bouzidi,et al. Investigation of the Gas-Phase Photolysis and Temperature-Dependent OH Reaction Kinetics of 4-Hydroxy-2-butanone. , 2015, Environmental science & technology.
[8] S. Madronich,et al. Organic photolysis reactions in tropospheric aerosols: effect on secondary organic aerosol formation and lifetime , 2015 .
[9] J. Jimenez,et al. Real-time measurements of secondary organic aerosol formation and aging from ambient air in an oxidation flow reactor in the Los Angeles area , 2015 .
[10] J. Seinfeld,et al. Multi-generational oxidation model to simulate secondary organic aerosol in a 3-D air quality model , 2015 .
[11] Sabrina M. Phillips,et al. Further evidence for charge transfer complexes in brown carbon aerosols from excitation-emission matrix fluorescence spectroscopy. , 2015, The journal of physical chemistry. A.
[12] Shouming Zhou,et al. Changes in secondary organic aerosol composition and mass due to photolysis: relative humidity dependence. , 2015, The journal of physical chemistry. A.
[13] A. Chakir,et al. UV–visible spectra and gas-phase rate coefficients for the reaction of 2,3-pentanedione and 2,4-pentanedione with OH radicals , 2015 .
[14] Tolga N. V. Karsili,et al. Probing the Ultrafast Energy Dissipation Mechanism of the Sunscreen Oxybenzone after UVA Irradiation. , 2015, The journal of physical chemistry letters.
[15] A. Laskin,et al. High-resolution mass spectrometry and molecular characterization of aqueous photochemistry products of common types of secondary organic aerosols. , 2015, The journal of physical chemistry. A.
[16] D. Worsnop,et al. Effect of oxidant concentration, exposure time, and seed particles on secondary organic aerosol chemical composition and yield , 2015 .
[17] K. Lippa,et al. Quantitative evidence for organic peroxy radical photochemistry at 254 nm. , 2015, The journal of physical chemistry. A.
[18] J. Jimenez,et al. Modeling the formation and aging of secondary organic aerosols in Los Angeles during CalNex 2010 , 2014 .
[19] H. Laversin,et al. Reactivity of 3-hydroxy-3-methyl-2-butanone: Photolysis and OH reaction kinetics , 2014 .
[20] Sabrina M. Phillips,et al. Light Absorption by Charge Transfer Complexes in Brown Carbon Aerosols , 2014 .
[21] A. Robinson,et al. Secondary organic aerosol formation from in-use motor vehicle emissions using a potential aerosol mass reactor. , 2014, Environmental science & technology.
[22] S. Nizkorodov,et al. Direct photolysis of α-pinene ozonolysis secondary organic aerosol: effect on particle mass and peroxide content. , 2014, Environmental science & technology.
[23] W. Brune,et al. Ultraviolet and visible complex refractive indices of secondary organic material produced by photooxidation of the aromatic compounds toluene and m -xylene , 2014 .
[24] S. Langer,et al. Gas-phase advanced oxidation for effective, efficient in situ control of pollution. , 2014, Environmental science & technology.
[25] Xuan Zhang,et al. Influence of vapor wall loss in laboratory chambers on yields of secondary organic aerosol , 2014, Proceedings of the National Academy of Sciences.
[26] C. Sharpless,et al. The importance of charge-transfer interactions in determining chromophoric dissolved organic matter (CDOM) optical and photochemical properties. , 2014, Environmental science. Processes & impacts.
[27] R. Ono,et al. Effect of humidity on the production of ozone and other radicals by low-pressure mercury lamps , 2014 .
[28] William M. Putman,et al. Configuration and assessment of the GISS ModelE2 contributions to the CMIP5 archive , 2014 .
[29] J. Seinfeld,et al. Overview of the Focused Isoprene eXperiment at the California Institute of Technology ( FIXCIT ) : mechanistic chamber studies on the oxidation of biogenic compounds , 2014 .
[30] R. Sander,et al. The MPI-Mainz UV/VIS Spectral Atlas of Gaseous Molecules of Atmospheric Interest , 2013 .
[31] J. Jimenez,et al. Secondary organic aerosol formation and primary organic aerosol oxidation from biomass-burning smoke in a flow reactor during FLAME-3 , 2013 .
[32] S. Martin,et al. Complex refractive indices of thin films of secondary organic materials by spectroscopic ellipsometry from 220 to 1200 nm. , 2013, Environmental science & technology.
[33] J. D. de Gouw,et al. Laboratory studies on secondary organic aerosol formation from crude oil vapors. , 2013, Environmental science & technology.
[34] P. Ziemann,et al. Products and mechanism of secondary organic aerosol formation from the reaction of 3-methylfuran with OH radicals in the presence of NOx , 2013 .
[35] P. Massoli,et al. Relationship between oxidation level and optical properties of secondary organic aerosol. , 2013, Environmental science & technology.
[36] P. Ziemann,et al. Chemical Mechanisms of Aging of Aerosol Formed from the Reaction of n-Pentadecane with OH Radicals in the Presence of NOx , 2013 .
[37] M. Beekmann,et al. Emission ratios of anthropogenic volatile organic compounds in northern mid‐latitude megacities: Observations versus emission inventories in Los Angeles and Paris , 2013 .
[38] Sergey A. Nizkorodov,et al. Formation of brown carbon via reactions of ammonia with secondary organic aerosols from biogenic and anthropogenic precursors , 2012 .
[39] U. Baltensperger,et al. Secondary organic aerosol formation from gasoline vehicle emissions in a new mobile environmental reaction chamber , 2012 .
[40] P. Ziemann,et al. Kinetics, products, and mechanisms of secondary organic aerosol formation. , 2012, Chemical Society reviews.
[41] Douglas R. Worsnop,et al. The deposition ice nucleation and immersion freezing potential of amorphous secondary organic aerosol: Pathways for ice and mixed‐phase cloud formation , 2012 .
[42] P. Massoli,et al. Humidity-dependent phase state of SOA particles from biogenic and anthropogenic precursors , 2012 .
[43] J. D. de Gouw,et al. Mass spectral analysis of organic aerosol formed downwind of the Deepwater Horizon oil spill: field studies and laboratory confirmations. , 2012, Environmental science & technology.
[44] P. Massoli,et al. Transitions from functionalization to fragmentation reactions of laboratory secondary organic aerosol (SOA) generated from the OH oxidation of alkane precursors. , 2012, Environmental science & technology.
[45] F. Keutsch,et al. Photolysis, OH reactivity and ozone reactivity of a proxy for isoprene-derived hydroperoxyenals (HPALDs). , 2012, Physical chemistry chemical physics : PCCP.
[46] S. Nizkorodov,et al. Absorption spectra and photolysis of methyl peroxide in liquid and frozen water. , 2012, The journal of physical chemistry. A.
[47] A. Weinheimer,et al. Effects of aging on organic aerosol from open biomass burning smoke in aircraft and laboratory studies , 2011 .
[48] J. Doussin,et al. Design of a new multi-phase experimental simulation chamber for atmospheric photosmog, aerosol and cloud chemistry research , 2011 .
[49] P. Massoli,et al. Laboratory studies of the chemical composition and cloud condensation nuclei (CCN) activity of secondary organic aerosol (SOA) and oxidized primary organic aerosol (OPOA) , 2011 .
[50] Robert J. Yokelson,et al. VOC identification and inter-comparison from laboratory biomass burning using PTR-MS and PIT-MS , 2011 .
[51] Paul W. Seakins. A brief review of the use of environmental chambers for gas phase studies of kinetics, chemical mechanisms and characterisation of field instruments , 2010 .
[52] T. Petäjä,et al. Relationship between aerosol oxidation level and hygroscopic properties of laboratory generated secondary organic aerosol (SOA) particles , 2010 .
[53] D. Worsnop,et al. Characterization of aerosol photooxidation flow reactors: heterogeneous oxidation, secondary organic aerosol formation and cloud condensation nuclei activity measurements , 2010 .
[54] D. Toohey,et al. Dependence of SOA oxidation on organic aerosol mass concentration and OH exposure: experimental PAM chamber studies , 2010 .
[55] A. Matsunaga,et al. Gas-Wall Partitioning of Organic Compounds in a Teflon Film Chamber and Potential Effects on Reaction Product and Aerosol Yield Measurements , 2010 .
[56] J. Bozzelli,et al. Role of the α-hydroxyethylperoxy radical in the reactions of acetaldehyde and vinyl alcohol with HO2 , 2009 .
[57] Pierre Tulet,et al. Evaluation of recently-proposed secondary organic aerosol models for a case study in Mexico City , 2009 .
[58] John H. Seinfeld,et al. The formation, properties and impact of secondary organic aerosol: current and emerging issues , 2009 .
[59] Christine Wiedinmyer,et al. A review of Secondary Organic Aerosol (SOA) formation from isoprene , 2009 .
[60] Warwick F. Vincent,et al. Photoreactivity of chromophoric dissolved organic matter transported by the Mackenzie River to the Beaufort Sea , 2009 .
[61] W. Eisfeld,et al. Atmospheric oxidation mechanism of hydroxymethyl hydroperoxide. , 2009, The journal of physical chemistry. A.
[62] Jared D. Smith,et al. The heterogeneous reaction of hydroxyl radicals with sub-micron squalane particles: a model system for understanding the oxidative aging of ambient aerosols , 2009 .
[63] N. Turro,et al. Principles of Molecular Photochemistry: An Introduction , 2008 .
[64] D. Blake,et al. Airborne measurement of OH reactivity during INTEX-B , 2008 .
[65] D. Toohey,et al. under a Creative Commons License. Atmospheric Chemistry and Physics Introducing the concept of Potential Aerosol Mass (PAM) , 2007 .
[66] T. J. Dillon,et al. The atmospheric chemistry of sulphuryl fluoride, SO 2 F 2 , 2007 .
[67] S. Goldstein,et al. Photolysis of aqueous H2O2: quantum yield and applications for polychromatic UV actinometry in photoreactors. , 2007, Environmental science & technology.
[68] J. Slowik,et al. Heterogeneous oxidation of saturated organic aerosols by hydroxyl radicals: uptake kinetics, condensed-phase products, and particle size change , 2007 .
[69] F. Bohr,et al. Features of the potential energy surface for the reaction of HO2 radical with acetone , 2007 .
[70] Huixiang Xie,et al. Factors affecting the efficiency of carbon monoxide photoproduction in the St. Lawrence estuarine system (Canada). , 2006, Environmental science & technology.
[71] Zhongming Chen,et al. Rate constants of the gas-phase reactions of CH3OOH with O3 and NOx at 293 K , 2006 .
[72] John T. Pisano,et al. A new environmental chamber for evaluation of gas-phase chemical mechanisms and secondary aerosol formation , 2005 .
[73] T. J. Boyd,et al. Photochemical production of hydrogen peroxide and methylhydroperoxide in coastal waters , 2005 .
[74] Albert A Presto,et al. Secondary organic aerosol production from terpene ozonolysis. 1. Effect of UV radiation. , 2005, Environmental science & technology.
[75] Farid Salama,et al. Investigation of the Ultraviolet, Visible, and Near-Infrared Absorption Spectra of Hydrogenated Polycyclic Aromatic Hydrocarbons and Their Cations , 2005 .
[76] Yong Bin Lim,et al. Contributions of organic peroxides to secondary aerosol formed from reactions of monoterpenes with O3. , 2005, Environmental science & technology.
[77] Paul S Monks,et al. Gas-phase radical chemistry in the troposphere. , 2005, Chemical Society reviews.
[78] R. Hoffman. Structure Determination of Organic Compounds , 2005 .
[79] Roger Atkinson,et al. Atmospheric degradation of volatile organic compounds. , 2003, Chemical reviews.
[80] W. Fang,et al. The Crucial Role of the S1/T2/T1 Intersection in the Relaxation Dynamics of Aromatic Carbonyl Compounds upon n→π* Excitation , 2002 .
[81] W. Miller,et al. Quantum yield for the photochemical production of dissolved inorganic carbon in seawater , 2001 .
[82] R C Flagan,et al. State-of-the-art chamber facility for studying atmospheric aerosol chemistry. , 2001, Environmental science & technology.
[83] A. Ravishankara,et al. Does the HO2 radical react with ketones , 2000 .
[84] R. Zepp,et al. Factors Influencing Photoreactions of Dissolved Organic Matter in a Coastal River of the Southeastern United States , 1998 .
[85] U. Platt,et al. UV-absorption cross sections of a series of monocyclic aromatic compounds , 1997 .
[86] R. A. Cox,et al. Evaluated Kinetic, Photochemical and Heterogeneous Data for Atmospheric Chemistry: Supplement V. IUPAC Subcommittee on Gas Kinetic Data Evaluation for Atmospheric Chemistry , 1997 .
[87] Frank M. Bowman,et al. Formation of Organic Aerosols from the Oxidation of Biogenic Hydrocarbons , 1997 .
[88] Burke,et al. Generalized Gradient Approximation Made Simple. , 1996, Physical review letters.
[89] J. Seinfeld,et al. Gas/Particle Partitioning and Secondary Organic Aerosol Yields , 1996 .
[90] A. Mellouki,et al. Kinetic Studies of OH Reactions with a Series of Acetates , 1996 .
[91] R. Atkinson,et al. Estimation of hydroxyl radical reaction rate constants for gas-phase organic compounds using a structure-reactivity relationship : an update , 1995 .
[92] Raymond W. Walker,et al. Evaluated kinetic data for combustion modelling supplement I , 1994 .
[93] Mark S. Gordon,et al. General atomic and molecular electronic structure system , 1993, J. Comput. Chem..
[94] Michael J. Pilling,et al. Evaluated Kinetic Data for Combustion Modelling , 1992 .
[95] K. Westberg,et al. Chemical Kinetic Data Sheets for High‐Temperature Reactions. Part II , 1991 .
[96] A. Alif,et al. Photochemistry and environment XIII: Phototransformation of 2-nitrophenol in aqueous solution , 1991 .
[97] H. Frerichs,et al. Comparison of the Reactions of Mono‐ and Polycyclic Aromatic Hydrocarbons with Oxygen Atoms , 1990 .
[98] J. Roberts,et al. UV absorption cross sections of organic nitrates of potential atmospheric importance and estimation of atmospheric lifetimes , 1989 .
[99] Roger Atkinson,et al. Evaluated kinetic and photochemical data for atmospheric chemistry: Volume III - gas phase reactions of inorganic halogens , 2006 .
[100] A. Mellouki,et al. Rate constant measurement for the reactions of OH and Cl with peroxyacetyl nitrate at 298 K , 1988 .
[101] John T. Herron,et al. Evaluated Chemical Kinetic Data for the Reactions of Atomic Oxygen O(3P) with Saturated Organic Compounds in the Gas Phase , 1988 .
[102] Wing Tsang,et al. Critical Review of rate constants for reactions of hydrated electronsChemical Kinetic Data Base for Combustion Chemistry. Part 3: Propane , 1988 .
[103] R. Cvetanovic. Evaluated Chemical Kinetic Data for the Reactions of Atomic Oxygen O(3P) with Unsaturated Hydrocarbons , 1987 .
[104] Ghosh,et al. Density-functional theory for time-dependent systems. , 1987, Physical review. A, General physics.
[105] R. Murray,et al. Gas-phase kinetics of the reaction of singlet oxygen with olefins at atmospheric pressure , 1986 .
[106] Roger Atkinson,et al. Kinetics and mechanisms of the gas-phase reactions of the hydroxyl radical with organic compounds under atmospheric conditions , 1986 .
[107] F. Korte,et al. Hydroxymethyl hydroperoxide and bis(hydroxymethyl) peroxide from gas-phase ozonolysis of naturally occurring alkenes , 1985, Nature.
[108] S. Toby,et al. Kinetics and chemiluminescence of ozone-aromatic reactions in the gas phase , 1985 .
[109] A. M. Renlund,et al. ArF Laser-induced decomposition of simple energetic niolecules , 1984 .
[110] K. Yoshihara,et al. Laser flash photolysis of benzene. VIII. Formation of hot benzene from the S2 state and its collisional deactivation , 1983 .
[111] K. Yoshihara,et al. Laser photolysis of benzene. V. Formation of hot benzene , 1982 .
[112] N. Nakashima. Laser Photolysis of Benzene , 1981 .
[113] T. Fueno,et al. Relative rate constants of O(1D2)—olefin reactions , 1979 .
[114] C. Merritt,et al. Intersystem crossing kinetics of aromatic ketones in the condensed phase , 1978 .
[115] J. N. Pitts,et al. Mechanismen der photochemischen Luftverschmutzung , 1975 .
[116] B. Thrush,et al. Reaction of oxygen atoms with methyl and ethyl nitrates , 1975 .
[117] R. Atkinson,et al. Relative rate constants for the reaction of O(1D) atoms with fluorocarbons and N2O , 1974 .
[118] G. Fleming,et al. Vibrational energy dependence of radiationless conversion in aromatic vapours , 1974, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.
[119] G. Paraskevopoulos,et al. RELATIVE RATES OF THE REACTIONS OF O((1)D2) ATOMS WITH ALKANES AND CYCLOALKANES , 1974 .
[120] R. Huie,et al. Kinetics of the reactions of singlet molecular oxygen (O21Δg) with organic compounds in the gas phase , 1973 .
[121] H. Levy. Normal Atmosphere: Large Radical and Formaldehyde Concentrations Predicted , 1971, Science.
[122] R. Foster,et al. Organic charge-transfer complexes , 1969 .
[123] J. Ferguson,et al. VAPOR ABSORPTION SPECTRA AND OSCILLATOR STRENGTHS OF NAPHTHALENE, ANTHRACENE, AND PYRENE , 1957 .
[124] R. N. Pease,et al. The Oxidation of Lower Paraffin Hydrocarbons. I. Room Temperature Reaction of Methane, Propane, n-Butane and Isobutane with Ozonized Oxygen1 , 1956 .