|Halogens and their role in polar boundary-layer ozone depletion|
WR Simpson, R Von Glasow, K Riedel, P Anderson, P Ariya, J Bottenheim, ...
|An overview of snow photochemistry: evidence, mechanisms and impacts|
AM Grannas, AE Jones, J Dibb, M Ammann, C Anastasio, HJ Beine, ...
|A synthesis of atmospheric mercury depletion event chemistry in the atmosphere and snow|
A Steffen, T Douglas, M Amyot, P Ariya, K Aspmo, T Berg, J Bottenheim, ...
|Atmospheric organic and bio-aerosols as cloud condensation nuclei (CCN): A review|
J Sun, PA Ariya
Atmospheric Environment 40 (5), 795-820, 2006
|Reactions of gaseous mercury with atomic and molecular halogens: kinetics, product studies, and atmospheric implications|
PA Ariya, A Khalizov, A Gidas
The Journal of Physical Chemistry A 106 (32), 7310-7320, 2002
|The Arctic: a sink for mercury|
PA Ariya, AP Dastroor, M Amyot, WH Schroeder, L Barrie, K Anlauf, ...
Tellus B: Chemical and Physical Meteorology 56 (5), 397-403, 2004
|Mercury physicochemical and biogeochemical transformation in the atmosphere and at atmospheric interfaces: A review and future directions|
PA Ariya, M Amyot, A Dastoor, D Deeds, A Feinberg, G Kos, A Poulain, ...
Chemical Reviews 115 (10), 3760-3802, 2015
|Gas-Phase HO•-Initiated Reactions of Elemental Mercury: Kinetics, Product Studies, and Atmospheric Implications|
B Pal, PA Ariya
Environmental science & technology 38 (21), 5555-5566, 2004
|Microbiology and atmospheric processes: chemical interactions of primary biological aerosols.|
L Deguillaume, M Leriche, P Amato, PA Ariya, AM Delort, U Poschl, ...
|New directions: the role of bioaerosols in atmospheric chemistry and physics|
Atmospheric Environment 38, 1231-1232, 2004
|Studies of ozone initiated reactions of gaseous mercury: kinetics, product studies, and atmospheric implications|
B Pal, PA Ariya
Physical Chemistry Chemical Physics 6 (3), 572-579, 2004
|Microbiology and atmospheric processes: research challenges concerning the impact of airborne micro-organisms on the atmosphere and climate|
CE Morris, D Sands, M Bardin, R Jaenicke, B Vogel, C Leyronas, P Ariya, ...
Biogeosciences 8 (1), 17-25, 2011
|A review of uncertainties in atmospheric modeling of mercury chemistry I. Uncertainties in existing kinetic parameters–Fundamental limitations and the importance of …|
M Subir, PA Ariya, AP Dastoor
Atmospheric Environment 45 (32), 5664-5676, 2011
|A theoretical study of the reactions of parent and substituted Criegee intermediates with water and the water dimer|
AB Ryzhkov, PA Ariya
Physical Chemistry Chemical Physics 6 (21), 5042-5050, 2004
|Physical and chemical characterization of bioaerosols–Implications for nucleation processes|
PA Ariya, J Sun, NA Eltouny, ED Hudson, CT Hayes, G Kos
International Reviews in Physical Chemistry 28 (1), 1-32, 2009
|Redox transformations of mercury in an Arctic snowpack at springtime|
AJ Poulain, JD Lalonde, M Amyot, JA Shead, F Raofie, PA Ariya
Atmospheric Environment 38 (39), 6763-6774, 2004
|Potential for mercury reduction by microbes in the high arctic|
AJ Poulain, SMN Chadhain, PA Ariya, M Amyot, E Garcia, PGC Campbell, ...
Applied and Environmental Microbiology 73 (7), 2230-2238, 2007
|A theoretical study on the reactions of Hg with halogens: Atmospheric implications|
AF Khalizov, B Viswanathan, P Larregaray, PA Ariya
The Journal of Physical Chemistry A 107 (33), 6360-6365, 2003
|Organics in environmental ices: sources, chemistry, and impacts|
VF McNeill, AM Grannas, JPD Abbatt, M Ammann, P Ariya, ...
Atmospheric Chemistry and Physics 12 (20), 9653, 2012
|The influence of ozone on atmospheric emissions of gaseous elemental mercury and reactive gaseous mercury from substrates|
MA Engle, MS Gustin, SE Lindberg, AW Gertler, PA Ariya
Atmospheric Environment 39 (39), 7506-7517, 2005