Page last updated: 2024-08-22

nitrous acid and hydroxyl radical

nitrous acid has been researched along with hydroxyl radical in 41 studies

Research

Studies (41)

TimeframeStudies, this research(%)All Research%
pre-19900 (0.00)18.7374
1990's2 (4.88)18.2507
2000's4 (9.76)29.6817
2010's19 (46.34)24.3611
2020's16 (39.02)2.80

Authors

AuthorsStudies
Czapski, G; Goldstein, S; Lind, J; Merényi, G2
Maurino, V; Minero, C; Pelizzetti, E; Vione, D1
Ammann, M; Donders, C; George, C; Kleffmann, J; Stemmler, K1
Dong, WB; Hou, HQ; Huang, L; Ouyang, B; Wang, JQ; Zhu, CZ1
Anastasio, C; Chu, L1
Coddeville, P; Djehiche, M; Fittschen, C; Tomas, A1
Andreae, MO; Behrendt, T; Cheng, P; Cheng, Y; Meixner, FX; Oswald, R; Pöschl, U; Su, H; Trebs, I; Zhang, Y1
Kulmala, M; Petäjä, T1
Gligorovski, S; Gómez Alvarez, E; Strekowski, R; Wortham, H; Zetzsch, C1
Han, C; He, H; Liu, C; Liu, Y; Ma, J; Ma, Q1
Afif, C; Amedro, D; Doussin, JF; Fittschen, C; Gligorovski, S; Gómez Alvarez, E; Schoemacker, C; Schoemaecker, C; Wortham, H1
Anastasio, C; France, J; Jacobi, HW; King, M; Kleffmann, J; Staebler, R; Villena, G; Wiesen, P1
Bish, DL; Donaldson, MA; Raff, JD1
Bartolomei, V; Gligorovski, S; Gomez Alvarez, E; Kleffmann, J; Quivet, E; Strekowski, R; Temime-Roussel, B; Tlili, S; Wittmer, J; Wortham, H; Zetzsch, C1
Bernard, F; Cazaunau, M; Chen, J; Daële, V; Grosselin, B; Liang, P; Mellouki, A; Mu, Y; Ye, X; Zhang, R; Zhang, Y; Zheng, J; Zhou, B1
Chen, T; Hu, S; Lu, J; Ma, J; Wang, T; Zhu, C1
He, H; Liang, Y; Liu, C; Ma, Q; Wang, T; Wang, W; Wang, Z1
Allen, SR; Kahan, TF; Kowal, SF1
Andreae, MO; Behrendt, T; Derstroff, B; Ermel, M; Hohlmann, S; Könneke, M; Meixner, FX; Oswald, R; Pommerening-Röser, A; Sörgel, M; Stönner, C; Trebs, I; Williams, J; Wu, D1
Chen, T; Lei, Y; Lu, J; Xiong, H; Zhang, Q; Zhu, C; Zhu, Y1
Kahan, TF; Siegel, JA; Young, CJ; Zhou, S1
Lei, Y; Liu, X; Lu, J; Ma, J; Zhu, C; Zhu, M1
Gandolfo, A; Gligorovski, S; Herrmann, H; Li, S; Li, X; Liu, J; Loisel, G; Mekic, M; Song, W; Wang, X; Yu, Z; Zeng, J; Zhou, W; Zhou, Z1
Rim, D; Waring, M; Won, Y1
Bao, X; Fan, X; Feng, H; Feng, Z; Jiang, T; Liu, Y; Ni, S; Xing, S; Zhang, L; Zhang, Y1
An, J; Catoire, V; Chen, H; Chen, J; Kleffmann, J; Krysztofiak, G; Liu, P; Mellouki, A; Mu, Y; Ren, Y; Wang, J; Wang, T; Xue, C; Ye, C; Zhang, C; Zhang, F; Zhang, J; Zhao, X1
Ge, M; Hu, B; Ji, D; Jia, C; Li, W; Liu, B; Liu, Y; Liu, Z; Tang, G; Tong, S; Wang, L; Wang, Y; Wang, Z; Zhang, W1
Deng, H; Gligorovski, S; Jiang, H; Lakey, PSJ; Liu, J; Mekic, M; Shiraiwa, M; Wang, X1
Cregan, AR; Kahan, TF; Kowal, SF; Zhou, S1
Han, Y; Li, Y; Ma, X; Shi, X; Teng, Z; Wang, J; Wang, Q; Wang, W; Xu, F; Zhang, Q; Zhao, X1
Allen, DT; Chen, J; Ge, M; Tong, S; Wang, Z; Xia, D; Xie, HB; Xu, T; Zhang, X1
Boiry, S; D'Anna, B; Dupouyet, S; Marion, A; Morin, J; Ormeño, E; Wortham, H1
Kahan, TF; Zhou, S1
Gao, J; Gu, R; Li, H; Liang, Y; Liu, Y; Shen, H; Wang, T; Wang, W; Xia, M; Xue, L; Yu, C1
Ge, M; Hu, B; Ji, D; Jia, C; Li, W; Li, X; Liu, P; Mu, Y; Tang, G; Tong, S; Wang, L; Wang, Z; Zhang, C; Zhang, W; Zhao, X1
Hong, Y; Li, X; Liu, N; Ma, Y; Sun, J; Wang, Y; Zhang, Y; Zhou, D1
Carslaw, N; Kahan, T; Schoemaecker, C; Shaw, D; Wang, Z1
Ge, M; Jia, C; Li, F; Li, W; Liu, Z; Tang, G; Tong, S; Wang, Z; Zhang, G; Zhang, W; Zhang, X1
Ge, M; Hu, B; Ji, D; Li, F; Lin, D; Liu, Z; Tang, G; Tong, S; Wang, L; Zhang, W; Zhang, X1
Abbatt, JPD; Abeleira, A; Arata, C; Bottorff, BP; Cardoso-Saldaña, FJ; Farmer, DK; Goldstein, AH; Hildebrandt Ruiz, L; Kahan, TF; Novoselac, A; Reidy, E; Rosales, CMF; Stevens, PS; Vance, ME; Wang, C; Zhou, S1

Reviews

1 review(s) available for nitrous acid and hydroxyl radical

ArticleYear
Illuminating the dark side of indoor oxidants.
    Environmental science. Processes & impacts, 2019, Aug-14, Volume: 21, Issue:8

    Topics: Air Pollutants; Air Pollution, Indoor; Formaldehyde; Hydroxyl Radical; Lighting; Nitrous Acid; Oxidants; Ozone; Photolysis

2019

Other Studies

40 other study(ies) available for nitrous acid and hydroxyl radical

ArticleYear
Peroxynitrous acid homolyzes into *OH and *NO2 radicals.
    Chemical research in toxicology, 1998, Volume: 11, Issue:7

    Topics: Free Radicals; Hydrogen-Ion Concentration; Hydroxyl Radical; Kinetics; Nitrites; Nitrous Acid; Peroxynitrous Acid

1998
Effect of *NO on the decomposition of peroxynitrite: reaction of N2O3 with ONOO-.
    Chemical research in toxicology, 1999, Volume: 12, Issue:2

    Topics: Hydrogen-Ion Concentration; Hydroxyl Radical; Kinetics; Nitrates; Nitric Oxide; Nitrous Acid; Oxidants; Oxidation-Reduction; Peroxynitrous Acid; Spectrophotometry; Superoxides

1999
Nitration and photonitration of naphthalene in aqueous systems.
    Environmental science & technology, 2005, Feb-15, Volume: 39, Issue:4

    Topics: Benzene; Hydroxyl Radical; Naphthalenes; Nitrates; Nitric Acid; Nitrites; Nitrogen Dioxide; Nitrous Acid; Oxidants; Peroxynitrous Acid; Phenol; Photochemistry; Time Factors; Water

2005
Photosensitized reduction of nitrogen dioxide on humic acid as a source of nitrous acid.
    Nature, 2006, Mar-09, Volume: 440, Issue:7081

    Topics: Atmosphere; Gases; Humic Substances; Hydroxyl Radical; Nitrogen Dioxide; Nitrous Acid; Oxidation-Reduction; Photochemistry

2006
Photochemistry in the mixed aqueous solution of nitrobenzene and nitrous acid as initiated by the 355 nm UV light.
    Chemosphere, 2007, Volume: 67, Issue:5

    Topics: Gas Chromatography-Mass Spectrometry; Hydroxyl Radical; Lasers; Nitrobenzenes; Nitrous Acid; Oxygen; Photolysis; Solutions; Ultraviolet Rays; Water Pollutants, Chemical

2007
Photochemistry of nitrous acid (HONO) and nitrous acidium ion (H2ONO) in aqueous solution and ice.
    Environmental science & technology, 2009, Feb-15, Volume: 43, Issue:4

    Topics: Absorption; Anions; Environment; Hydrogen-Ion Concentration; Hydroxyl Radical; Ice; Ions; Least-Squares Analysis; Nitrogen; Nitrous Acid; Photochemical Processes; Photolysis; Photons; Solutions; Sunlight; Temperature; Water

2009
First direct detection of HONO in the reaction of methylnitrite (CH3ONO) with OH radicals.
    Environmental science & technology, 2011, Jan-15, Volume: 45, Issue:2

    Topics: Absorption; Air Pollutants; Hydroxyl Radical; Nitrites; Nitrous Acid; Photolysis

2011
Soil nitrite as a source of atmospheric HONO and OH radicals.
    Science (New York, N.Y.), 2011, Sep-16, Volume: 333, Issue:6049

    Topics: Agriculture; Atmosphere; Circadian Rhythm; Hydrogen-Ion Concentration; Hydroxyl Radical; Nitrites; Nitrous Acid; Oxidation-Reduction; Photolysis; Soil; Soil Microbiology

2011
Geochemistry. Soil nitrites influence atmospheric chemistry.
    Science (New York, N.Y.), 2011, Sep-16, Volume: 333, Issue:6049

    Topics: Atmosphere; Ecosystem; Hydroxyl Radical; Nitrites; Nitrogen Cycle; Nitrous Acid; Reactive Nitrogen Species; Soil; Soil Microbiology

2011
Atmospheric photosensitized heterogeneous and multiphase reactions: from outdoors to indoors.
    Environmental science & technology, 2012, Feb-21, Volume: 46, Issue:4

    Topics: Air Pollutants; Air Pollution, Indoor; Atmosphere; Hydroxyl Radical; Light; Nitrous Acid; Oceans and Seas; Photolysis

2012
Review of heterogeneous photochemical reactions of NOy on aerosol - A possible daytime source of nitrous acid (HONO) in the atmosphere.
    Journal of environmental sciences (China), 2013, Feb-01, Volume: 25, Issue:2

    Topics: Aerosols; Atmosphere; Hydroxyl Radical; Nitrous Acid; Photochemistry

2013
Unexpectedly high indoor hydroxyl radical concentrations associated with nitrous acid.
    Proceedings of the National Academy of Sciences of the United States of America, 2013, Aug-13, Volume: 110, Issue:33

    Topics: Air Pollution, Indoor; Environmental Monitoring; France; Hydroxyl Radical; Models, Chemical; Nitrous Acid; Oxidation-Reduction; Photolysis; Schools

2013
Role of nitrite in the photochemical formation of radicals in the snow.
    Environmental science & technology, 2014, Volume: 48, Issue:1

    Topics: Alaska; Atmosphere; Hydrogen Peroxide; Hydroxyl Radical; Nitrates; Nitrites; Nitrogen Compounds; Nitrous Acid; Photochemical Processes; Photolysis; Snow

2014
Soil surface acidity plays a determining role in the atmospheric-terrestrial exchange of nitrous acid.
    Proceedings of the National Academy of Sciences of the United States of America, 2014, Dec-30, Volume: 111, Issue:52

    Topics: Atmosphere; Hydrogen-Ion Concentration; Hydroxyl Radical; Models, Chemical; Nitrous Acid; Potentiometry; Soil

2014
Combustion Processes as a Source of High Levels of Indoor Hydroxyl Radicals through the Photolysis of Nitrous Acid.
    Environmental science & technology, 2015, Jun-02, Volume: 49, Issue:11

    Topics: Air Pollution, Indoor; Alkenes; Atmosphere; Hydroxyl Radical; Light; Models, Theoretical; Nitrous Acid; Oxidants; Oxidation-Reduction; Ozone; Photolysis

2015
Measurements of nitrous acid (HONO) in urban area of Shanghai, China.
    Environmental science and pollution research international, 2016, Volume: 23, Issue:6

    Topics: Air Pollutants; Atmosphere; China; Hydroxyl Radical; Nitrous Acid; Spectrum Analysis

2016
Photochemical reaction between biphenyl and N(III) in the atmospheric aqueous phase.
    Chemosphere, 2017, Volume: 167

    Topics: Aerosols; Air Pollutants; Biphenyl Compounds; Hydroxyl Radical; Lasers; Nitrous Acid; Oxidation-Reduction; Photochemical Processes; Photolysis; Ultraviolet Rays; Water

2017
SO
    Environmental science & technology, 2017, 04-04, Volume: 51, Issue:7

    Topics: Dust; Gases; Hydroxyl Radical; Nitrites; Nitrous Acid

2017
Wavelength-Resolved Photon Fluxes of Indoor Light Sources: Implications for HO
    Environmental science & technology, 2017, Sep-19, Volume: 51, Issue:18

    Topics: Hydrogen Peroxide; Hydroxyl Radical; Nitrogen Dioxide; Nitrous Acid; Photochemistry; Photons; Reactive Oxygen Species

2017
Hydroxylamine released by nitrifying microorganisms is a precursor for HONO emission from drying soils.
    Scientific reports, 2018, 01-30, Volume: 8, Issue:1

    Topics: Ammonia; Archaea; Atmosphere; Bacteria; Gases; Hydroxyl Radical; Hydroxylamine; Nitrification; Nitrous Acid; Oxidation-Reduction; Soil; Soil Microbiology

2018
Photochemical oxidation of di-n-butyl phthalate in atmospheric hydrometeors by hydroxyl radicals from nitrous acid.
    Environmental science and pollution research international, 2018, Volume: 25, Issue:31

    Topics: Aerosols; Dibutyl Phthalate; Gas Chromatography-Mass Spectrometry; Hydroxyl Radical; Kinetics; Nitrous Acid; Oxidation-Reduction

2018
Photochemical reaction kinetics and mechanistic investigations of nitrous acid with sulfamethazine in tropospheric water.
    Environmental science and pollution research international, 2019, Volume: 26, Issue:25

    Topics: Hydroxyl Radical; Kinetics; Nitrous Acid; Oxygen; Photolysis; Sulfamethazine; Ultraviolet Rays; Water

2019
Assessing indoor gas phase oxidation capacity through real-time measurements of HONO and NO
    Environmental science. Processes & impacts, 2019, Aug-14, Volume: 21, Issue:8

    Topics: Air Pollution, Indoor; China; Cooking; Humans; Hydroxyl Radical; Models, Theoretical; Nitrogen Oxides; Nitrous Acid; Oxidation-Reduction; Ozone; Photolysis; Sunlight

2019
Understanding the Spatial Heterogeneity of Indoor OH and HO
    Environmental science & technology, 2019, 12-17, Volume: 53, Issue:24

    Topics: Air Pollution, Indoor; Hydrodynamics; Hydroxyl Radical; Nitrous Acid; Photolysis

2019
Influence of Chinese New Year overlapping COVID-19 lockdown on HONO sources in Shijiazhuang.
    The Science of the total environment, 2020, Nov-25, Volume: 745

    Topics: Air Pollution; Anniversaries and Special Events; Atmosphere; Betacoronavirus; Coronavirus Infections; COVID-19; Hydroxyl Radical; Nitrous Acid; Pandemics; Pneumonia, Viral; SARS-CoV-2

2020
HONO Budget and Its Role in Nitrate Formation in the Rural North China Plain.
    Environmental science & technology, 2020, 09-15, Volume: 54, Issue:18

    Topics: Aerosols; China; Hydroxyl Radical; Nitrates; Nitrous Acid

2020
Different HONO Sources for Three Layers at the Urban Area of Beijing.
    Environmental science & technology, 2020, 10-20, Volume: 54, Issue:20

    Topics: Aerosols; Atmosphere; Beijing; Hydroxyl Radical; Nitrous Acid

2020
Unexpectedly High Indoor HONO Concentrations Associated with Photochemical NO
    Environmental science & technology, 2020, 12-15, Volume: 54, Issue:24

    Topics: Air Pollution, Indoor; Gases; Hydroxyl Radical; Nitrogen Dioxide; Nitrous Acid

2020
Factors affecting wavelength-resolved ultraviolet irradiance indoors and their impacts on indoor photochemistry.
    Indoor air, 2021, Volume: 31, Issue:4

    Topics: Air Pollution, Indoor; Hydroxyl Radical; Nitrous Acid; Photochemistry; Photolysis; Ultraviolet Rays

2021
Simulation Verification of Barrierless HONO Formation from the Oxidation Reaction System of NO, Cl, and Water in the Atmosphere.
    Environmental science & technology, 2021, 06-15, Volume: 55, Issue:12

    Topics: Atmosphere; China; Hydroxyl Radical; Nitrous Acid; Water

2021
Heterogeneous Formation of HONO Catalyzed by CO
    Environmental science & technology, 2021, 09-21, Volume: 55, Issue:18

    Topics: Carbon Dioxide; Hydroxyl Radical; Nitrous Acid; Water

2021
Nitrous acid production and uptake by Zea mays plants in growth chambers in the presence of nitrogen dioxide.
    The Science of the total environment, 2022, Feb-01, Volume: 806, Issue:Pt 2

    Topics: Atmosphere; Hydroxyl Radical; Nitrogen Dioxide; Nitrous Acid; Zea mays

2022
Spatiotemporal characterization of irradiance and photolysis rate constants of indoor gas-phase species in the UTest house during HOMEChem.
    Indoor air, 2022, Volume: 32, Issue:1

    Topics: Air Pollution, Indoor; Gases; Hydroxyl Radical; Nitrous Acid; Photolysis

2022
Investigating the sources of atmospheric nitrous acid (HONO) in the megacity of Beijing, China.
    The Science of the total environment, 2022, Mar-15, Volume: 812

    Topics: Aerosols; Beijing; China; Hydroxyl Radical; Nitrous Acid

2022
Effect of Different Combustion Processes on Atmospheric Nitrous Acid Formation Mechanisms: A Winter Comparative Observation in Urban, Suburban and Rural Areas of the North China Plain.
    Environmental science & technology, 2022, 04-19, Volume: 56, Issue:8

    Topics: China; Coal; Hydroxyl Radical; Nitrous Acid; Vehicle Emissions

2022
Formation and evolution of secondary particulate matter during heavy haze pollution episodes in winter in a severe cold climate region of Northeast China.
    Environmental science and pollution research international, 2022, Volume: 29, Issue:45

    Topics: Aerosols; Air Pollutants; Air Pollution; Ammonia; China; Coal; Cold Climate; Environmental Monitoring; Hydroxyl Radical; Nitrates; Nitrogen Dioxide; Nitrogen Oxides; Nitrous Acid; Ozone; Particulate Matter; Seasons; Sulfates; Sulfur; Sulfur Dioxide

2022
A modeling study of the impact of photolysis on indoor air quality.
    Indoor air, 2022, Volume: 32, Issue:6

    Topics: Air Pollutants; Air Pollution, Indoor; Formaldehyde; Hydroxyl Radical; Nitrous Acid; Photolysis

2022
Atmospheric oxidizing capacity in autumn Beijing: Analysis of the O
    Journal of environmental sciences (China), 2023, Volume: 124

    Topics: Aerosols; Air Pollutants; Beijing; China; Environmental Monitoring; Formaldehyde; Hydroxyl Radical; Nitrous Acid; Oxidants; Oxidation-Reduction; Ozone; Particulate Matter; Volatile Organic Compounds

2023
Atmospheric chemistry of nitrous acid and its effects on hydroxyl radical and ozone at the urban area of Beijing in early spring 2021.
    Environmental pollution (Barking, Essex : 1987), 2023, Jan-01, Volume: 316, Issue:Pt 1

    Topics: Beijing; Hydroxyl Radical; Nitrogen Dioxide; Nitrous Acid; Ozone

2023
Measurements of Hydroxyl Radical Concentrations during Indoor Cooking Events: Evidence of an Unmeasured Photolytic Source of Radicals.
    Environmental science & technology, 2023, 01-17, Volume: 57, Issue:2

    Topics: Air Pollutants; Air Pollution, Indoor; Cooking; Hydroxyl Radical; Nitrogen Oxides; Nitrous Acid; Ozone; Photolysis

2023