R
Roland von Glasow
Researcher at University of East Anglia
Publications - 35
Citations - 3001
Roland von Glasow is an academic researcher from University of East Anglia. The author has contributed to research in topics: Atmospheric chemistry & Tropospheric ozone depletion events. The author has an hindex of 22, co-authored 35 publications receiving 2562 citations. Previous affiliations of Roland von Glasow include Spanish National Research Council & Heidelberg University.
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Journal ArticleDOI
Atmospheric Chemistry of Iodine
Alfonso Saiz-Lopez,John M. C. Plane,Alex R. Baker,Lucy J. Carpenter,Roland von Glasow,Juan Carlos Gómez Martín,Gordon McFiggans,R. W. Saunders +7 more
TL;DR: Atmospheric Chemistry of Iodine Alfonso Saiz-Lopez,* John M. C. Plane,* Alex R. Baker, Lucy J. Carpenter, Roland von Glasow, Juan C. G omez Martín, Gordon McFiggans, and Russell W. Smith.
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Iodine chemistry and its role in halogen activation and ozone loss in the marine boundary layer: A model study
TL;DR: A detailed set of reactions treating the gas and aqueous phase chemistry of the most important iodine species in the marine boundary layer (MBL) has been added to a box model which describes Br and Cl chemistry in the MBL.
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Tropospheric Halogen Chemistry: Sources, Cycling,and Impacts
TL;DR: Reactive halogen species are potent oxidizers for organic and inorganic compounds throughout the troposphere and are powerful climate forcing agents through direct and indirect radiative effects.
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Reactive halogen chemistry in the troposphere
TL;DR: This critical review summarises the current understanding and uncertainties of the main halogen photochemistry processes, including the current knowledge of the atmospheric impact of halogen chemistry as well as open questions and future research needs.
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The effects of volcanic eruptions on atmospheric chemistry
TL;DR: In this paper, the main effects of volcanic emissions on atmospheric chemistry are discussed, with a focus on sulphur and halogen compounds, and to a smaller extent on climate, mainly focusing on quiescent degassing, but the main effect of explosive eruptions on the troposphere and stratosphere are covered as well.