Indoor and ambient air pollution dataset using a multi-instrument approach and total event monitoring

Mario Lovrić; Valentino Petrić; Dejan Strbad; Teo Terzić; Sanja Frka; Ana Cvitešić Kušan; Jose Fermoso; Sebastian Düsing; Honey Dawn Alas; Mila Dobrić Ladavac; Ivan Bilić; Marko Batrac; Simonas Kecorius; Gordana Pehnec; Tajana Horvat; Ivana Jakovljević; Nikolina Račić; Ivan Bešlić; Darijo Brzoja; Vesna Gugec; Maria Figols; Xabier Aláez; Hana Matanović; Anđelko Žigman; Michael Forsmann; Anneli Toomis; Jürgo-Sören Preden; Alessandro Battaglia; Ivano Battaglia; Gianna Karanasiou; Frederik Weis; Jon Switters; Francesco Mureddu

doi:10.1038/s41597-025-05847-3

Indoor and ambient air pollution dataset using a multi-instrument approach and total event monitoring

Mario Lovrić^*, Valentino Petrić, Dejan Strbad, Teo Terzić, Sanja Frka, Ana Cvitešić Kušan, Jose Fermoso, Sebastian Düsing, Honey Dawn Alas, Mila Dobrić Ladavac, Ivan Bilić, Marko Batrac, Simonas Kecorius, Gordana Pehnec, Tajana Horvat, Ivana Jakovljević, Nikolina Račić, Ivan Bešlić, Darijo Brzoja, Vesna GugecMaria Figols, Xabier Aláez, Hana Matanović, Anđelko Žigman, Michael Forsmann, Anneli Toomis, Jürgo-Sören Preden, Alessandro Battaglia, Ivano Battaglia, Gianna Karanasiou, Frederik Weis, Jon Switters, Francesco Mureddu

^*Corresponding author for this work

2 Citations (Scopus)

Abstract

Indoor air quality (IAQ) significantly influences human health, as individuals spend up to 90% of their time indoors, where air pollutants can accumulate and interact dynamically. Despite advancements in monitoring technology, challenges remain in capturing the temporal and spatial variability of pollutants and understanding the interaction between indoor and outdoor environments. This study addresses these gaps by introducing a comprehensive dataset from a controlled experimental room in Croatia, leveraging a multi-instrumental approach to monitor IAQ across various real-life scenarios. The dataset integrates measurements from low-cost sensors, reference-grade devices, and auxiliary systems to track pollutants such as particulate matter (PM), black carbon (BC), volatile organic compounds (VOC), and indoor events deemed relevant for the assessment of pollutant levels. Key experiments simulated household activities, including cooking, cleaning, human presence, and ventilation, capturing their impacts on IAQ with high temporal resolution. The resulting dataset comprises over 19 subsets. This work contributes to the Horizon EDIAQI project, supporting the development of evidence-driven strategies to improve IAQ.

Original language	English
Article number	1584
Journal	Scientific Data
Volume	12
Issue number	1
Pages (from-to)	1584
ISSN	2052-4463
DOIs	https://doi.org/10.1038/s41597-025-05847-3
Publication status	Published - 29 Sept 2025

Keywords

Air Pollution, Indoor/analysis
Environmental Monitoring/methods
Volatile Organic Compounds/analysis
Particulate Matter/analysis
Air Pollutants/analysis
Humans
Croatia
Air Pollution

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10.1038/s41597-025-05847-3Licence: CC BY

Cite this

Lovrić, M., Petrić, V., Strbad, D., Terzić, T., Frka, S., Kušan, A. C., Fermoso, J., Düsing, S., Alas, H. D., Ladavac, M. D., Bilić, I., Batrac, M., Kecorius, S., Pehnec, G., Horvat, T., Jakovljević, I., Račić, N., Bešlić, I., Brzoja, D., ... Mureddu, F. (2025). Indoor and ambient air pollution dataset using a multi-instrument approach and total event monitoring. Scientific Data, 12(1), 1584. Article 1584. https://doi.org/10.1038/s41597-025-05847-3

Lovrić, M, Petrić, V, Strbad, D, Terzić, T, Frka, S, Kušan, AC, Fermoso, J, Düsing, S, Alas, HD, Ladavac, MD, Bilić, I, Batrac, M, Kecorius, S, Pehnec, G, Horvat, T, Jakovljević, I, Račić, N, Bešlić, I, Brzoja, D, Gugec, V, Figols, M, Aláez, X, Matanović, H, Žigman, A, Forsmann, M, Toomis, A, Preden, J-S, Battaglia, A, Battaglia, I, Karanasiou, G, Weis, F, Switters, J & Mureddu, F 2025, 'Indoor and ambient air pollution dataset using a multi-instrument approach and total event monitoring', Scientific Data, vol. 12, no. 1, 1584, pp. 1584. https://doi.org/10.1038/s41597-025-05847-3

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title = "Indoor and ambient air pollution dataset using a multi-instrument approach and total event monitoring",

abstract = "Indoor air quality (IAQ) significantly influences human health, as individuals spend up to 90\% of their time indoors, where air pollutants can accumulate and interact dynamically. Despite advancements in monitoring technology, challenges remain in capturing the temporal and spatial variability of pollutants and understanding the interaction between indoor and outdoor environments. This study addresses these gaps by introducing a comprehensive dataset from a controlled experimental room in Croatia, leveraging a multi-instrumental approach to monitor IAQ across various real-life scenarios. The dataset integrates measurements from low-cost sensors, reference-grade devices, and auxiliary systems to track pollutants such as particulate matter (PM), black carbon (BC), volatile organic compounds (VOC), and indoor events deemed relevant for the assessment of pollutant levels. Key experiments simulated household activities, including cooking, cleaning, human presence, and ventilation, capturing their impacts on IAQ with high temporal resolution. The resulting dataset comprises over 19 subsets. This work contributes to the Horizon EDIAQI project, supporting the development of evidence-driven strategies to improve IAQ.",

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T1 - Indoor and ambient air pollution dataset using a multi-instrument approach and total event monitoring

AU - Lovrić, Mario

AU - Petrić, Valentino

AU - Strbad, Dejan

AU - Terzić, Teo

AU - Frka, Sanja

AU - Kušan, Ana Cvitešić

AU - Fermoso, Jose

AU - Düsing, Sebastian

AU - Alas, Honey Dawn

AU - Ladavac, Mila Dobrić

AU - Bilić, Ivan

AU - Batrac, Marko

AU - Kecorius, Simonas

AU - Pehnec, Gordana

AU - Horvat, Tajana

AU - Jakovljević, Ivana

AU - Račić, Nikolina

AU - Bešlić, Ivan

AU - Brzoja, Darijo

AU - Gugec, Vesna

AU - Figols, Maria

AU - Aláez, Xabier

AU - Matanović, Hana

AU - Žigman, Anđelko

AU - Forsmann, Michael

AU - Toomis, Anneli

AU - Preden, Jürgo-Sören

AU - Battaglia, Alessandro

AU - Battaglia, Ivano

AU - Karanasiou, Gianna

AU - Weis, Frederik

AU - Switters, Jon

AU - Mureddu, Francesco

PY - 2025/9/29

Y1 - 2025/9/29

N2 - Indoor air quality (IAQ) significantly influences human health, as individuals spend up to 90% of their time indoors, where air pollutants can accumulate and interact dynamically. Despite advancements in monitoring technology, challenges remain in capturing the temporal and spatial variability of pollutants and understanding the interaction between indoor and outdoor environments. This study addresses these gaps by introducing a comprehensive dataset from a controlled experimental room in Croatia, leveraging a multi-instrumental approach to monitor IAQ across various real-life scenarios. The dataset integrates measurements from low-cost sensors, reference-grade devices, and auxiliary systems to track pollutants such as particulate matter (PM), black carbon (BC), volatile organic compounds (VOC), and indoor events deemed relevant for the assessment of pollutant levels. Key experiments simulated household activities, including cooking, cleaning, human presence, and ventilation, capturing their impacts on IAQ with high temporal resolution. The resulting dataset comprises over 19 subsets. This work contributes to the Horizon EDIAQI project, supporting the development of evidence-driven strategies to improve IAQ.

AB - Indoor air quality (IAQ) significantly influences human health, as individuals spend up to 90% of their time indoors, where air pollutants can accumulate and interact dynamically. Despite advancements in monitoring technology, challenges remain in capturing the temporal and spatial variability of pollutants and understanding the interaction between indoor and outdoor environments. This study addresses these gaps by introducing a comprehensive dataset from a controlled experimental room in Croatia, leveraging a multi-instrumental approach to monitor IAQ across various real-life scenarios. The dataset integrates measurements from low-cost sensors, reference-grade devices, and auxiliary systems to track pollutants such as particulate matter (PM), black carbon (BC), volatile organic compounds (VOC), and indoor events deemed relevant for the assessment of pollutant levels. Key experiments simulated household activities, including cooking, cleaning, human presence, and ventilation, capturing their impacts on IAQ with high temporal resolution. The resulting dataset comprises over 19 subsets. This work contributes to the Horizon EDIAQI project, supporting the development of evidence-driven strategies to improve IAQ.

KW - Air Pollution, Indoor/analysis

KW - Environmental Monitoring/methods

KW - Volatile Organic Compounds/analysis

KW - Particulate Matter/analysis

KW - Air Pollutants/analysis

KW - Humans

KW - Croatia

KW - Air Pollution

UR - https://www.scopus.com/pages/publications/105017595318

U2 - 10.1038/s41597-025-05847-3

DO - 10.1038/s41597-025-05847-3

M3 - Journal article

C2 - 41022911

SN - 2052-4463

VL - 12

SP - 1584

JO - Scientific Data

JF - Scientific Data

IS - 1

M1 - 1584

ER -

Indoor and ambient air pollution dataset using a multi-instrument approach and total event monitoring

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Keywords

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