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David Shaw
David Shaw
Verified email at york.ac.uk - Homepage
Title
Cited by
Cited by
Year
Mechanisms behind surface modification of polypropylene film using an atmospheric-pressure plasma jet
D Shaw, A West, J Bredin, E Wagenaars
Plasma Sources Science and Technology 25 (6), 065018, 2016
1192016
Spatial and temporal scales of variability for indoor air constituents
PSJ Lakey, Y Won, D Shaw, FF Østerstrøm, J Mattila, E Reidy, B Bottorff, ...
Communications Chemistry 4 (1), 110, 2021
292021
Secondary product creation potential (SPCP): a metric for assessing the potential impact of indoor air pollution on human health
N Carslaw, D Shaw
Environmental Science: Processes & Impacts 21 (8), 1313-1322, 2019
292019
Modification of cleaning product formulations could improve indoor air quality
N Carslaw, D Shaw
Indoor Air 32 (3), e13021, 2022
122022
INCHEM-Py: An open source Python box model for indoor air chemistry
D Shaw, N Carslaw
Journal of open source software 6 (63), 3224, 2021
122021
Temperature driven variations in VOC emissions from plastic products and their fate indoors: A chamber experiment and modelling study
G Beel, B Langford, N Carslaw, D Shaw, N Cowan
Science of The Total Environment 881, 163497, 2023
92023
A Modelling Study of Indoor Air Chemistry: The Surface Interactions of Ozone and Hydrogen Peroxide
TJ Carter, DG Poppendieck, D Shaw, N Carslaw
Atmospheric Environment 297, 119598, 2023
92023
A modeling study of the impact of photolysis on indoor air quality
Z Wang, D Shaw, T Kahan, C Schoemaecker, N Carslaw
Indoor air 32 (6), e13054, 2022
82022
Surface modification of polymer films using an atmospheric-pressure plasma jet
D Shaw, P Gyuk, A West, M Momoh, E Wagenaars
Proc 22nd ISPC, 2015
82015
Towards improved models for indoor air chemistry: A Monte Carlo simulation study
M Kruza, D Shaw, J Shaw, N Carslaw
Atmospheric Environment 262, 118625, 2021
72021
INCHEM-Py v1. 2: A community box model for indoor air chemistry
DR Shaw, TJ Carter, HL Davies, E Harding-Smith, EC Crocker, G Beel, ...
Geoscientific Model Development 16 (24), 7411-7431, 2023
52023
A measurement and modelling investigation of the indoor air chemistry following cooking activities
HL Davies, C O'Leary, T Dillon, DR Shaw, M Shaw, A Mehra, G Phillips, ...
Environmental Science: Processes & Impacts 25 (9), 1532-1548, 2023
42023
Modelling radio-frequency plasma cleaning of fusion optics
D Shaw, E Wagenaars
Plasma Physics and Controlled Fusion 61 (8), 085031, 2019
22019
A new framework for indoor air chemistry measurements: Towards a better understanding of indoor air pollution
N Carslaw, G Bekö, S Langer, C Schoemaecker, VG Mihucz, ...
Indoor Environments 1 (1), 100001, 2024
12024
Long-term prediction of the effects of climate change on indoor climate and air quality
J Zhao, E Uhde, T Salthammer, F Antretter, D Shaw, N Carslaw, ...
Environmental Research 243, 117804, 2024
12024
Does green mean clean? Volatile organic emissions from regular versus green cleaning products
E Harding-Smith, DR Shaw, M Shaw, TJ Dillon, N Carslaw
Environmental Science: Processes & Impacts 26 (2), 436-450, 2024
12024
Dynamic headspace SIFT-MS coupled with indoor air modelling for bottom-up estimations of indoor air pollution from cleaning
E Harding-Smith, C O'Leary, H Davies, D Shaw, M Shaw, T Dillon, ...
AGU Fall Meeting Abstracts 2022, A32E-1457, 2022
12022
Indoor Cooking and Cleaning as a Source of Outdoor Air Pollution in Urban Environments
TJ Carter, DR Shaw, D Carslaw, N Carslaw
Environmental Science: Processes & Impacts, 2024
2024
Understanding the patterns and health impact of indoor air pollutant exposures in Bradford, UK: a study protocol
E Ikeda, J Hamilton, C Wood, L Chatzidiakou, T Warburton, A Ruangkanit, ...
BMJ open 13 (12), e081099, 2023
2023
Modelling Study of Interactions of Ozone and Hydrogen Peroxide on Indoor Surfaces
D Poppendieck, TJ Carter, D Shaw, N Carslaw
Dustin Poppendieck, Toby J. Carter, David Shaw, Nicola Carslaw, 2023
2023
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