Articles | Volume 14, issue 13
https://doi.org/10.5194/acp-14-6677-2014
© Author(s) 2014. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
https://doi.org/10.5194/acp-14-6677-2014
© Author(s) 2014. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
Research article
| 
02 Jul 2014
Research article |
| 02 Jul 2014
The impact of monoaromatic hydrocarbons on OH reactivity in the coastal UK boundary layer and free troposphere
R. T. Lidster
The Department of Chemistry, The University of York, Heslington, UK
J. F. Hamilton
The Department of Chemistry, The University of York, Heslington, UK
J. D. Lee
The Department of Chemistry, The University of York, Heslington, UK
National Centre for Atmospheric Science, University of York, Heslington, York, UK
A. C. Lewis
The Department of Chemistry, The University of York, Heslington, UK
National Centre for Atmospheric Science, University of York, Heslington, York, UK
J. R. Hopkins
The Department of Chemistry, The University of York, Heslington, UK
National Centre for Atmospheric Science, University of York, Heslington, York, UK
S. Punjabi
The Department of Chemistry, The University of York, Heslington, UK
A. R. Rickard
The Department of Chemistry, The University of York, Heslington, UK
National Centre for Atmospheric Science, University of York, Heslington, York, UK
J. C. Young
School of Chemistry, University of Leeds, Leeds, UK
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Cited
15 citations as recorded by crossref.
- Rate coefficients for reactions of OH with aromatic and aliphatic volatile organic compounds determined by the multivariate relative rate technique J. Shaw et al. 10.5194/acp-20-9725-2020
- Ozone production and precursor emission from wildfires in Africa J. Lee et al. 10.1039/D1EA00041A
- Enhanced ozone loss by active inorganic bromine chemistry in the tropical troposphere M. Le Breton et al. 10.1016/j.atmosenv.2017.02.003
- What effect does VOC sampling time have on derived OH reactivity? H. Sonderfeld et al. 10.5194/acp-16-6303-2016
- Detailed budget analysis of HONO in central London reveals a missing daytime source J. Lee et al. 10.5194/acp-16-2747-2016
- A comparison of chemical mechanisms using tagged ozone production potential (TOPP) analysis J. Coates & T. Butler 10.5194/acp-15-8795-2015
- A self-consistent, multivariate method for the determination of gas-phase rate coefficients, applied to reactions of atmospheric VOCs and the hydroxyl radical J. Shaw et al. 10.5194/acp-18-4039-2018
- Night-time measurements of HOx during the RONOCO project and analysis of the sources of HO2 H. Walker et al. 10.5194/acp-15-8179-2015
- Radical chemistry at night: comparisons between observed and modelled HOx, NO3 and N2O5 during the RONOCO project D. Stone et al. 10.5194/acp-14-1299-2014
- Megacity and local contributions to regional air pollution: an aircraft case study over London K. Ashworth et al. 10.5194/acp-20-7193-2020
- Technical Note: A fully automated purge and trap GC-MS system for quantification of volatile organic compound (VOC) fluxes between the ocean and atmosphere S. Andrews et al. 10.5194/os-11-313-2015
- Environmental effects of ozone depletion and its interactions with climate change: progress report, 2015 10.1039/c6pp90004f
- Towards a quantitative understanding of total OH reactivity: A review Y. Yang et al. 10.1016/j.atmosenv.2016.03.010
- Understanding in situ ozone production in the summertime through radical observations and modelling studies during the Clean air for London project (ClearfLo) L. Whalley et al. 10.5194/acp-18-2547-2018
- Radical chemistry at night: comparisons between observed and modelled HO<sub>x</sub>, NO<sub>3</sub> and N<sub>2</sub>O<sub>5</sub> during the RONOCO project D. Stone et al. 10.5194/acp-14-1299-2014
14 citations as recorded by crossref.
- Rate coefficients for reactions of OH with aromatic and aliphatic volatile organic compounds determined by the multivariate relative rate technique J. Shaw et al. 10.5194/acp-20-9725-2020
- Ozone production and precursor emission from wildfires in Africa J. Lee et al. 10.1039/D1EA00041A
- Enhanced ozone loss by active inorganic bromine chemistry in the tropical troposphere M. Le Breton et al. 10.1016/j.atmosenv.2017.02.003
- What effect does VOC sampling time have on derived OH reactivity? H. Sonderfeld et al. 10.5194/acp-16-6303-2016
- Detailed budget analysis of HONO in central London reveals a missing daytime source J. Lee et al. 10.5194/acp-16-2747-2016
- A comparison of chemical mechanisms using tagged ozone production potential (TOPP) analysis J. Coates & T. Butler 10.5194/acp-15-8795-2015
- A self-consistent, multivariate method for the determination of gas-phase rate coefficients, applied to reactions of atmospheric VOCs and the hydroxyl radical J. Shaw et al. 10.5194/acp-18-4039-2018
- Night-time measurements of HOx during the RONOCO project and analysis of the sources of HO2 H. Walker et al. 10.5194/acp-15-8179-2015
- Radical chemistry at night: comparisons between observed and modelled HOx, NO3 and N2O5 during the RONOCO project D. Stone et al. 10.5194/acp-14-1299-2014
- Megacity and local contributions to regional air pollution: an aircraft case study over London K. Ashworth et al. 10.5194/acp-20-7193-2020
- Technical Note: A fully automated purge and trap GC-MS system for quantification of volatile organic compound (VOC) fluxes between the ocean and atmosphere S. Andrews et al. 10.5194/os-11-313-2015
- Environmental effects of ozone depletion and its interactions with climate change: progress report, 2015 10.1039/c6pp90004f
- Towards a quantitative understanding of total OH reactivity: A review Y. Yang et al. 10.1016/j.atmosenv.2016.03.010
- Understanding in situ ozone production in the summertime through radical observations and modelling studies during the Clean air for London project (ClearfLo) L. Whalley et al. 10.5194/acp-18-2547-2018
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