An interlaboratory comparison to quantify oxidative potential measurement in aerosol particles: challenges and recommendations for harmonisation

Pamela A. Dominutti; Jean Luc Jaffrezo; Anouk Marsal; Takoua Mhadhbi; Rhabira Elazzouzi; Camille Rak; Fabrizia Cavalli; Jean Philippe Putaud; Aikaterini Bougiatioti; Nikolaos Mihalopoulos; Despina Paraskevopoulou; Ian Mudway; Athanasios Nenes; Kaspar R. Daellenbach; Catherine Banach; Steven J. Campbell; Hana Cigánková; Daniele Contini; Greg Evans; Maria Georgopoulou; Manuella Ghanem; Drew A. Glencross; Maria Rachele Guascito; Hartmut Herrmann; Saima Iram; Maja Jovanović; Milena Jovašević-Stojanović; Markus Kalberer; Ingeborg M. Kooter; Suzanne E. Paulson; Anil Patel; Esperanza Perdrix; Maria Chiara Pietrogrande; Pavel Mikuška; Jean Jacques Sauvain; Katerina Seitanidi; Pourya Shahpoury; Eduardo J.d.S. Souza; Sarah Steimer; Svetlana Stevanovic; Guillaume Suarez; P. S.Ganesh Subramanian; Battist Utinger; Marloes F. Van Os; Vishal Verma; Xing Wang; Rodney J. Weber; Yuhan Yang; Xavier Querol; Gerard Hoek; Roy M. Harrison; Gaëlle Uzu

doi:10.5194/amt-18-177-2025

An interlaboratory comparison to quantify oxidative potential measurement in aerosol particles: challenges and recommendations for harmonisation

Pamela A. Dominutti, Jean Luc Jaffrezo, Anouk Marsal, Takoua Mhadhbi, Rhabira Elazzouzi, Camille Rak, Fabrizia Cavalli, Jean Philippe Putaud, Aikaterini Bougiatioti, Nikolaos Mihalopoulos, Despina Paraskevopoulou, Ian Mudway, Athanasios Nenes, Kaspar R. Daellenbach, Catherine Banach, Steven J. Campbell, Hana Cigánková, Daniele Contini, Greg Evans, Maria GeorgopoulouManuella Ghanem, Drew A. Glencross, Maria Rachele Guascito, Hartmut Herrmann, Saima Iram, Maja Jovanović, Milena Jovašević-Stojanović, Markus Kalberer, Ingeborg M. Kooter, Suzanne E. Paulson, Anil Patel, Esperanza Perdrix, Maria Chiara Pietrogrande, Pavel Mikuška, Jean Jacques Sauvain, Katerina Seitanidi, Pourya Shahpoury, Eduardo J.d.S. Souza, Sarah Steimer, Svetlana Stevanovic, Guillaume Suarez, P. S.Ganesh Subramanian, Battist Utinger, Marloes F. Van Os, Vishal Verma, Xing Wang, Rodney J. Weber, Yuhan Yang, Xavier Querol, Gerard Hoek, Roy M. Harrison, Gaëlle Uzu

Civil and Environmental Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

This paper presents the findings from a collaborative interlaboratory comparison exercise designed to assess oxidative potential (OP) measurements conducted by 20 laboratories worldwide. This study represents an innovative effort as the first exercise specifically aimed at harmonising this type of OP assay, setting a new benchmark in the field. Over the last decade, there has been a noticeable increase in OP studies, with numerous research groups investigating the effects of exposure to air pollution particles through the evaluation of OP levels. However, the absence of standardised methods for OP measurements has resulted in variability in results across different groups, rendering meaningful comparisons challenging. To address this issue, this study engages in an international effort to compare OP measurements using a simplified method (with a dithiothreitol (DTT) assay). Here, we quantify the OP in liquid samples to focus on the protocol measurement itself, while future international OP interlaboratory comparisons (ILCs) should aim to assess the whole chain process, including the sample extraction. We analyse the similarities and discrepancies observed in the results, identifying the critical parameters (such as the instrument used, the use of a simplified protocol, the delivery and analysis time) that could influence OP measurements and provide recommendations for future studies and interlaboratory comparisons even if other crucial aspects, such as sampling PM methods, sample storage, extraction methods and conditions, and the evaluation of other OP assays, still need to be standardised. This collaborative approach enhances the robustness of the OP DTT assay and paves the way for future studies to build on a unified framework. This pioneering work concludes that interlaboratory comparisons provide essential insights into the OP metric and are crucial to move toward the harmonisation of OP measurements.

Original language	English (US)
Pages (from-to)	177-195
Number of pages	19
Journal	Atmospheric Measurement Techniques
Volume	18
Issue number	1
Early online date	Jan 13 2025
DOIs	https://doi.org/10.5194/amt-18-177-2025
State	Published - Jan 13 2025

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Atmospheric Science

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Dominutti, P. A., Jaffrezo, J. L., Marsal, A., Mhadhbi, T., Elazzouzi, R., Rak, C., Cavalli, F., Putaud, J. P., Bougiatioti, A., Mihalopoulos, N., Paraskevopoulou, D., Mudway, I., Nenes, A., Daellenbach, K. R., Banach, C., Campbell, S. J., Cigánková, H., Contini, D., Evans, G., ... Uzu, G. (2025). An interlaboratory comparison to quantify oxidative potential measurement in aerosol particles: challenges and recommendations for harmonisation. Atmospheric Measurement Techniques, 18(1), 177-195. https://doi.org/10.5194/amt-18-177-2025

Dominutti, PA, Jaffrezo, JL, Marsal, A, Mhadhbi, T, Elazzouzi, R, Rak, C, Cavalli, F, Putaud, JP, Bougiatioti, A, Mihalopoulos, N, Paraskevopoulou, D, Mudway, I, Nenes, A, Daellenbach, KR, Banach, C, Campbell, SJ, Cigánková, H, Contini, D, Evans, G, Georgopoulou, M, Ghanem, M, Glencross, DA, Guascito, MR, Herrmann, H, Iram, S, Jovanović, M, Jovašević-Stojanović, M, Kalberer, M, Kooter, IM, Paulson, SE, Patel, A, Perdrix, E, Pietrogrande, MC, Mikuška, P, Sauvain, JJ, Seitanidi, K, Shahpoury, P, Souza, EJDS, Steimer, S, Stevanovic, S, Suarez, G, Subramanian, PSG, Utinger, B, Van Os, MF, Verma, V, Wang, X, Weber, RJ, Yang, Y, Querol, X, Hoek, G, Harrison, RM & Uzu, G 2025, 'An interlaboratory comparison to quantify oxidative potential measurement in aerosol particles: challenges and recommendations for harmonisation', Atmospheric Measurement Techniques, vol. 18, no. 1, pp. 177-195. https://doi.org/10.5194/amt-18-177-2025

@article{9f9894ae7427421e851efd186fa7fbdd,

title = "An interlaboratory comparison to quantify oxidative potential measurement in aerosol particles: challenges and recommendations for harmonisation",

abstract = "This paper presents the findings from a collaborative interlaboratory comparison exercise designed to assess oxidative potential (OP) measurements conducted by 20 laboratories worldwide. This study represents an innovative effort as the first exercise specifically aimed at harmonising this type of OP assay, setting a new benchmark in the field. Over the last decade, there has been a noticeable increase in OP studies, with numerous research groups investigating the effects of exposure to air pollution particles through the evaluation of OP levels. However, the absence of standardised methods for OP measurements has resulted in variability in results across different groups, rendering meaningful comparisons challenging. To address this issue, this study engages in an international effort to compare OP measurements using a simplified method (with a dithiothreitol (DTT) assay). Here, we quantify the OP in liquid samples to focus on the protocol measurement itself, while future international OP interlaboratory comparisons (ILCs) should aim to assess the whole chain process, including the sample extraction. We analyse the similarities and discrepancies observed in the results, identifying the critical parameters (such as the instrument used, the use of a simplified protocol, the delivery and analysis time) that could influence OP measurements and provide recommendations for future studies and interlaboratory comparisons even if other crucial aspects, such as sampling PM methods, sample storage, extraction methods and conditions, and the evaluation of other OP assays, still need to be standardised. This collaborative approach enhances the robustness of the OP DTT assay and paves the way for future studies to build on a unified framework. This pioneering work concludes that interlaboratory comparisons provide essential insights into the OP metric and are crucial to move toward the harmonisation of OP measurements.",

author = "Dominutti, \{Pamela A.\} and Jaffrezo, \{Jean Luc\} and Anouk Marsal and Takoua Mhadhbi and Rhabira Elazzouzi and Camille Rak and Fabrizia Cavalli and Putaud, \{Jean Philippe\} and Aikaterini Bougiatioti and Nikolaos Mihalopoulos and Despina Paraskevopoulou and Ian Mudway and Athanasios Nenes and Daellenbach, \{Kaspar R.\} and Catherine Banach and Campbell, \{Steven J.\} and Hana Cig{\'a}nkov{\'a} and Daniele Contini and Greg Evans and Maria Georgopoulou and Manuella Ghanem and Glencross, \{Drew A.\} and Guascito, \{Maria Rachele\} and Hartmut Herrmann and Saima Iram and Maja Jovanovi{\'c} and Milena Jova{\v s}evi{\'c}-Stojanovi{\'c} and Markus Kalberer and Kooter, \{Ingeborg M.\} and Paulson, \{Suzanne E.\} and Anil Patel and Esperanza Perdrix and Pietrogrande, \{Maria Chiara\} and Pavel Miku{\v s}ka and Sauvain, \{Jean Jacques\} and Katerina Seitanidi and Pourya Shahpoury and Souza, \{Eduardo J.d.S.\} and Sarah Steimer and Svetlana Stevanovic and Guillaume Suarez and Subramanian, \{P. S.Ganesh\} and Battist Utinger and \{Van Os\}, \{Marloes F.\} and Vishal Verma and Xing Wang and Weber, \{Rodney J.\} and Yuhan Yang and Xavier Querol and Gerard Hoek and Harrison, \{Roy M.\} and Ga{\"e}lle Uzu",

note = "The present work was supported by the European Union's Horizon 2020 research and innovation programme under grant agreement 101036245 (RI-URBANS), including the postdoc grant of Pamela A. Dominutti, and by a University Grenoble Alpes grant ACME IDEX (ANR-15-IDEX-02). Chemical analysis of the Air-O-Sol facility at IGE was made possible with the funding of some of the equipment by Labex OSUG@2020 (ANR10 LABX56). Despina Paraskevopoulou, Aikaterini Bougiatioti and Nikolaos Mihalopoulos acknowledge support from the project REGENERATE funded by the Hellenic Foundation for Research and Innovation (HFRI) through the General Secretariat for Research and Technology (GSRT), project no. 3232. Hana Cig\textbackslash{}u00E1nkov\textbackslash{}u00E1 and Pavel Miku\textbackslash{}u0161ka acknowledge support from project no. 24-10051S funded by the Czech Science Foundation. The analyses in Serbia were supported by the EC Horizon Europe research and innovation programme under grant agreement GA 101060170 (We-BaSOOP). Analyses at ISAC-CNR were supported by the project PER-ACTRIS-IT, funded by the Ministry of Education and Research (MIUR), Action II.1 of PON Research and Innovation 2014-2020. This study was also supported by the PROCOPE mobility programme (0185-DEU-23-0008 LG1) for grant 0185-DEU-23-0008 LG1 to Eduardo J. d. S. Souza (ACD, TROPOS). Pourya Shahpoury acknowledges support from the Hazardous Air Pollutant Laboratory of Environment and Climate Change Canada. Battist Utinger and Markus Kalberer acknowledge funding from the Swiss National Science Foundation, grant 200021\_192192/1. Ian Mudway received funding from the National Institute for Health Research (NIHR) Health Protection Research Unit in Environmental Exposures and Health, a partnership between the UK Health Security Agency and Imperial College, with Ian Mudway receiving additional funding from the MRC Centre for Environment and Health, which is funded by the Medical Research Council (MR/S0196669/1, 2019-2024). IMT Nord Europe thanks the R\textbackslash{}u00E9gion Hauts-de-France, the Minist\textbackslash{}u00E8re de l'Enseignement Sup\textbackslash{}u00E9rieur et de la Recherche, and the European Fund for Regional Economic Development for their financial support to the CPER ECRIN programme. We also acknowledge Mark Diks (TNO), Alexandre Barth and Julian Resch (UNIBAS), Laurent Alleman (IMT Nord Europe), and Stephan Houdier (IGE) for providing help in the deployment of this ILC. Financial support. This research has been supported by the EU Horizon 2020 (grant no. 101036245 (RI-URBANS)). The present work was supported by the European Union's Horizon 2020 research and innovation programme under grant agreement 101036245 (RI-URBANS), including the post-doc grant of Pamela A. Dominutti, and by a University Grenoble Alpes grant ACME IDEX (ANR-15-IDEX-02). Chemical analysis of the Air-O-Sol facility at IGE was made possible with the funding of some of the equipment by Labex OSUG@2020 (ANR10 LABX56). Despina Paraskevopoulou, Aikaterini Bougiatioti and Nikolaos Mihalopoulos acknowledge support from the project REGENERATE funded by the Hellenic Foundation for Research and Innovation (HFRI) through the General Secretariat for Research and Technology (GSRT), project no. 3232. Hana Cig\textbackslash{}u00E1nkov\textbackslash{}u00E1 and Pavel Miku\textbackslash{}u0161ka acknowledge support from project no. 24-10051S funded by the Czech Science Foundation. The analyses in Serbia were supported by the EC Horizon Europe research and innovation programme under grant agreement GA 101060170 (WeBaSOOP). Analyses at ISAC-CNR were supported by the project PER-ACTRIS-IT, funded by the Ministry of Education and Research (MIUR), Action II.1 of PON Research and Innovation 2014\textbackslash{}u20132020. This study was also supported by the PROCOPE mobility programme (0185-DEU-23-0008 LG1) for grant 0185-DEU-23-0008 LG1 to Eduardo J. d. S. Souza (ACD, TROPOS). Pourya Shahpoury acknowledges support from the Hazardous Air Pollutant Laboratory of Environment and Climate Change Canada. Battist Utinger and Markus Kalberer acknowledge funding from the Swiss National Science Foundation, grant 200021\_192192/1. Ian Mudway received funding from the National Institute for Health Research (NIHR) Health Protection Research Unit in Environmental Exposures and Health, a partnership between the UK Health Security Agency and Imperial College, with Ian Mudway receiving additional funding from the MRC Centre for Environment and Health, which is funded by the Medical Research Council (MR/S0196669/1, 2019\textbackslash{}u20132024). IMT Nord Europe thanks the R\textbackslash{}u00E9gion Hauts-de-France, the Minist\textbackslash{}u00E8re de l'Enseignement Sup\textbackslash{}u00E9rieur et de la Recherche, and the European Fund for Regional Economic Development for their financial support to the CPER ECRIN programme. This research has been supported by the EU Horizon 2020 (grant no. 101036245 (RI-URBANS)).",

year = "2025",

month = jan,

day = "13",

doi = "10.5194/amt-18-177-2025",

language = "English (US)",

volume = "18",

pages = "177--195",

journal = "Atmospheric Measurement Techniques",

issn = "1867-1381",

publisher = "Copernicus Publications",

number = "1",

}

TY - JOUR

T1 - An interlaboratory comparison to quantify oxidative potential measurement in aerosol particles

T2 - challenges and recommendations for harmonisation

AU - Dominutti, Pamela A.

AU - Jaffrezo, Jean Luc

AU - Marsal, Anouk

AU - Mhadhbi, Takoua

AU - Elazzouzi, Rhabira

AU - Rak, Camille

AU - Cavalli, Fabrizia

AU - Putaud, Jean Philippe

AU - Bougiatioti, Aikaterini

AU - Mihalopoulos, Nikolaos

AU - Paraskevopoulou, Despina

AU - Mudway, Ian

AU - Nenes, Athanasios

AU - Daellenbach, Kaspar R.

AU - Banach, Catherine

AU - Campbell, Steven J.

AU - Cigánková, Hana

AU - Contini, Daniele

AU - Evans, Greg

AU - Georgopoulou, Maria

AU - Ghanem, Manuella

AU - Glencross, Drew A.

AU - Guascito, Maria Rachele

AU - Herrmann, Hartmut

AU - Iram, Saima

AU - Jovanović, Maja

AU - Jovašević-Stojanović, Milena

AU - Kalberer, Markus

AU - Kooter, Ingeborg M.

AU - Paulson, Suzanne E.

AU - Patel, Anil

AU - Perdrix, Esperanza

AU - Pietrogrande, Maria Chiara

AU - Mikuška, Pavel

AU - Sauvain, Jean Jacques

AU - Seitanidi, Katerina

AU - Shahpoury, Pourya

AU - Souza, Eduardo J.d.S.

AU - Steimer, Sarah

AU - Stevanovic, Svetlana

AU - Suarez, Guillaume

AU - Subramanian, P. S.Ganesh

AU - Utinger, Battist

AU - Van Os, Marloes F.

AU - Verma, Vishal

AU - Wang, Xing

AU - Weber, Rodney J.

AU - Yang, Yuhan

AU - Querol, Xavier

AU - Hoek, Gerard

AU - Harrison, Roy M.

AU - Uzu, Gaëlle

N1 - The present work was supported by the European Union's Horizon 2020 research and innovation programme under grant agreement 101036245 (RI-URBANS), including the postdoc grant of Pamela A. Dominutti, and by a University Grenoble Alpes grant ACME IDEX (ANR-15-IDEX-02). Chemical analysis of the Air-O-Sol facility at IGE was made possible with the funding of some of the equipment by Labex OSUG@2020 (ANR10 LABX56). Despina Paraskevopoulou, Aikaterini Bougiatioti and Nikolaos Mihalopoulos acknowledge support from the project REGENERATE funded by the Hellenic Foundation for Research and Innovation (HFRI) through the General Secretariat for Research and Technology (GSRT), project no. 3232. Hana Cig\u00E1nkov\u00E1 and Pavel Miku\u0161ka acknowledge support from project no. 24-10051S funded by the Czech Science Foundation. The analyses in Serbia were supported by the EC Horizon Europe research and innovation programme under grant agreement GA 101060170 (We-BaSOOP). Analyses at ISAC-CNR were supported by the project PER-ACTRIS-IT, funded by the Ministry of Education and Research (MIUR), Action II.1 of PON Research and Innovation 2014-2020. This study was also supported by the PROCOPE mobility programme (0185-DEU-23-0008 LG1) for grant 0185-DEU-23-0008 LG1 to Eduardo J. d. S. Souza (ACD, TROPOS). Pourya Shahpoury acknowledges support from the Hazardous Air Pollutant Laboratory of Environment and Climate Change Canada. Battist Utinger and Markus Kalberer acknowledge funding from the Swiss National Science Foundation, grant 200021_192192/1. Ian Mudway received funding from the National Institute for Health Research (NIHR) Health Protection Research Unit in Environmental Exposures and Health, a partnership between the UK Health Security Agency and Imperial College, with Ian Mudway receiving additional funding from the MRC Centre for Environment and Health, which is funded by the Medical Research Council (MR/S0196669/1, 2019-2024). IMT Nord Europe thanks the R\u00E9gion Hauts-de-France, the Minist\u00E8re de l'Enseignement Sup\u00E9rieur et de la Recherche, and the European Fund for Regional Economic Development for their financial support to the CPER ECRIN programme. We also acknowledge Mark Diks (TNO), Alexandre Barth and Julian Resch (UNIBAS), Laurent Alleman (IMT Nord Europe), and Stephan Houdier (IGE) for providing help in the deployment of this ILC. Financial support. This research has been supported by the EU Horizon 2020 (grant no. 101036245 (RI-URBANS)). The present work was supported by the European Union's Horizon 2020 research and innovation programme under grant agreement 101036245 (RI-URBANS), including the post-doc grant of Pamela A. Dominutti, and by a University Grenoble Alpes grant ACME IDEX (ANR-15-IDEX-02). Chemical analysis of the Air-O-Sol facility at IGE was made possible with the funding of some of the equipment by Labex OSUG@2020 (ANR10 LABX56). Despina Paraskevopoulou, Aikaterini Bougiatioti and Nikolaos Mihalopoulos acknowledge support from the project REGENERATE funded by the Hellenic Foundation for Research and Innovation (HFRI) through the General Secretariat for Research and Technology (GSRT), project no. 3232. Hana Cig\u00E1nkov\u00E1 and Pavel Miku\u0161ka acknowledge support from project no. 24-10051S funded by the Czech Science Foundation. The analyses in Serbia were supported by the EC Horizon Europe research and innovation programme under grant agreement GA 101060170 (WeBaSOOP). Analyses at ISAC-CNR were supported by the project PER-ACTRIS-IT, funded by the Ministry of Education and Research (MIUR), Action II.1 of PON Research and Innovation 2014\u20132020. This study was also supported by the PROCOPE mobility programme (0185-DEU-23-0008 LG1) for grant 0185-DEU-23-0008 LG1 to Eduardo J. d. S. Souza (ACD, TROPOS). Pourya Shahpoury acknowledges support from the Hazardous Air Pollutant Laboratory of Environment and Climate Change Canada. Battist Utinger and Markus Kalberer acknowledge funding from the Swiss National Science Foundation, grant 200021_192192/1. Ian Mudway received funding from the National Institute for Health Research (NIHR) Health Protection Research Unit in Environmental Exposures and Health, a partnership between the UK Health Security Agency and Imperial College, with Ian Mudway receiving additional funding from the MRC Centre for Environment and Health, which is funded by the Medical Research Council (MR/S0196669/1, 2019\u20132024). IMT Nord Europe thanks the R\u00E9gion Hauts-de-France, the Minist\u00E8re de l'Enseignement Sup\u00E9rieur et de la Recherche, and the European Fund for Regional Economic Development for their financial support to the CPER ECRIN programme. This research has been supported by the EU Horizon 2020 (grant no. 101036245 (RI-URBANS)).

PY - 2025/1/13

Y1 - 2025/1/13

N2 - This paper presents the findings from a collaborative interlaboratory comparison exercise designed to assess oxidative potential (OP) measurements conducted by 20 laboratories worldwide. This study represents an innovative effort as the first exercise specifically aimed at harmonising this type of OP assay, setting a new benchmark in the field. Over the last decade, there has been a noticeable increase in OP studies, with numerous research groups investigating the effects of exposure to air pollution particles through the evaluation of OP levels. However, the absence of standardised methods for OP measurements has resulted in variability in results across different groups, rendering meaningful comparisons challenging. To address this issue, this study engages in an international effort to compare OP measurements using a simplified method (with a dithiothreitol (DTT) assay). Here, we quantify the OP in liquid samples to focus on the protocol measurement itself, while future international OP interlaboratory comparisons (ILCs) should aim to assess the whole chain process, including the sample extraction. We analyse the similarities and discrepancies observed in the results, identifying the critical parameters (such as the instrument used, the use of a simplified protocol, the delivery and analysis time) that could influence OP measurements and provide recommendations for future studies and interlaboratory comparisons even if other crucial aspects, such as sampling PM methods, sample storage, extraction methods and conditions, and the evaluation of other OP assays, still need to be standardised. This collaborative approach enhances the robustness of the OP DTT assay and paves the way for future studies to build on a unified framework. This pioneering work concludes that interlaboratory comparisons provide essential insights into the OP metric and are crucial to move toward the harmonisation of OP measurements.

AB - This paper presents the findings from a collaborative interlaboratory comparison exercise designed to assess oxidative potential (OP) measurements conducted by 20 laboratories worldwide. This study represents an innovative effort as the first exercise specifically aimed at harmonising this type of OP assay, setting a new benchmark in the field. Over the last decade, there has been a noticeable increase in OP studies, with numerous research groups investigating the effects of exposure to air pollution particles through the evaluation of OP levels. However, the absence of standardised methods for OP measurements has resulted in variability in results across different groups, rendering meaningful comparisons challenging. To address this issue, this study engages in an international effort to compare OP measurements using a simplified method (with a dithiothreitol (DTT) assay). Here, we quantify the OP in liquid samples to focus on the protocol measurement itself, while future international OP interlaboratory comparisons (ILCs) should aim to assess the whole chain process, including the sample extraction. We analyse the similarities and discrepancies observed in the results, identifying the critical parameters (such as the instrument used, the use of a simplified protocol, the delivery and analysis time) that could influence OP measurements and provide recommendations for future studies and interlaboratory comparisons even if other crucial aspects, such as sampling PM methods, sample storage, extraction methods and conditions, and the evaluation of other OP assays, still need to be standardised. This collaborative approach enhances the robustness of the OP DTT assay and paves the way for future studies to build on a unified framework. This pioneering work concludes that interlaboratory comparisons provide essential insights into the OP metric and are crucial to move toward the harmonisation of OP measurements.

UR - https://www.scopus.com/pages/publications/85215327199

UR - https://www.scopus.com/inward/citedby.url?scp=85215327199&partnerID=8YFLogxK

U2 - 10.5194/amt-18-177-2025

DO - 10.5194/amt-18-177-2025

M3 - Article

AN - SCOPUS:85215327199

SN - 1867-1381

VL - 18

SP - 177

EP - 195

JO - Atmospheric Measurement Techniques

JF - Atmospheric Measurement Techniques

IS - 1

ER -

An interlaboratory comparison to quantify oxidative potential measurement in aerosol particles: challenges and recommendations for harmonisation

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