Nicola Carslaw
Overview
Explore the profile of Nicola Carslaw including associated specialties, affiliations and a list of published articles.
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Articles
29
Citations
114
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Recent Articles
1.
Carslaw N, Aghaji J, Budisulistiorini S, Carslaw D, Chatzidiakou L, Cheung R, et al.
Environ Sci Process Impacts
. 2025 Jan;
27(2):355-372.
PMID: 39851239
This paper provides an overview of the INGENIOUS (UnderstandING the sourcEs, traNsformations and fates of IndOor air pollUtantS) project, aiming to better understand air pollution in homes. Although our homes...
2.
Kumar A, OLeary C, Winkless R, Thompson M, Davies H, Shaw M, et al.
Environ Sci Process Impacts
. 2025 Jan;
27(1):244-261.
PMID: 39749578
Emission rates for volatile organic compounds (VOCs) have been quantified from frying, spice and herb cooking, and cooking a chicken curry, using real-time selected-ion flow-tube mass spectrometry (SIFT-MS) for controlled,...
3.
Osterstrom F, Carter T, Shaw D, Abbatt J, Abeleira A, Arata C, et al.
Environ Sci Process Impacts
. 2024 Dec;
27(1):188-201.
PMID: 39688182
In the indoor environment, occupants are exposed to air pollutants originating from continuous indoor sources and exchange with the outdoor air, with the highest concentration episodes dominated by activities performed...
4.
Harding-Smith E, Davies H, OLeary C, Winkless R, Shaw M, Dillon T, et al.
Environ Sci Process Impacts
. 2024 Sep;
PMID: 39268696
Cooking and cleaning are common sources of indoor air pollutants, including volatile organic compounds (VOCs). The chemical fate of VOCs indoors is determined by both gas-phase and multi-phase chemistry, and...
5.
Carter T, Shaw D, Carslaw D, Carslaw N
Environ Sci Process Impacts
. 2024 Mar;
26(6):975-990.
PMID: 38525871
Indoor sources of air pollution, such as from cooking and cleaning, play a key role in indoor gas-phase chemistry. The focus of the impact of these activities on air quality...
6.
Harding-Smith E, Shaw D, Shaw M, Dillon T, Carslaw N
Environ Sci Process Impacts
. 2024 Jan;
26(2):436-450.
PMID: 38258874
Cleaning products emit a range of volatile organic compounds (VOCs), including some which are hazardous or can undergo chemical transformations to generate harmful secondary pollutants. In recent years, "green" cleaners...
7.
Ikeda E, Hamilton J, Wood C, Chatzidiakou L, Warburton T, Ruangkanit A, et al.
BMJ Open
. 2023 Dec;
13(12):e081099.
PMID: 38056942
Introduction: Relative to outdoor air pollution, there is little evidence examining the composition and concentrations of indoor air pollution and its associated health impacts. The INGENIOUS project aims to provide...
8.
Zhao J, Uhde E, Salthammer T, Antretter F, Shaw D, Carslaw N, et al.
Environ Res
. 2023 Dec;
243:117804.
PMID: 38042519
Limiting the negative impact of climate change on nature and humans is one of the most pressing issues of the 21st century. Meanwhile, people in modern society spend most of...
9.
Davies H, OLeary C, Dillon T, Shaw D, Shaw M, Mehra A, et al.
Environ Sci Process Impacts
. 2023 Aug;
25(9):1532-1548.
PMID: 37609942
Domestic cooking is a source of indoor air pollutants, including volatile organic compounds (VOCs), which can impact on indoor air quality. However, the real-time VOC emissions from cooking are not...
10.
Saraga D, Querol X, Duarte R, Aquilina N, Canha N, Alvarez E, et al.
Sci Total Environ
. 2023 Jul;
900:165744.
PMID: 37487894
Source apportionment (SA) for indoor air pollution is challenging due to the multiplicity and high variability of indoor sources, the complex physical and chemical processes that act as primary sources,...