[Ezzati2002] M. Ezzati , DM. Kammen. The health impacts of exposure to indoor air pollution from solid fuels in developing countries: knowledge, gaps, and data needs. Environ. Health Perspect. November 2002. 110 (11): 1057–68.

[Jones1999] A.P. Jones, Indoor air quality and health, Atmospheric Environment, Volume 33, Issue 28,1999,Pages 4535-4564,ISSN 1352-2310.

[EPA1991] United States, Environmental Protection Agency, Research and Development, Indoor Air Facts No. 4 Sick Building Syndrome,February 1991 .

[WHO2010] WHO. New Guidelines for Selected Indoor Chemicals Establish Targets at Which Health Risks are Significantly Reduced,2010.

[Singapore1996] Singapore Public Health Ministry of the Environment. Guidelines for Good Indoor Air Quality in Office Premises; Institute of Environmental Epidemiology; Ministry of the Environment: Singapore, 1996; pp. 1–47.

[NIOSH2004] NIOSH, NIOSH Pocket Guide to Chemical Hazards, 2004.

[Beaulac2020] Vanessa J. Beaulac, Health Canada’s Approach to Indoor Air Contaminants,2020.

[Bai2002] Z. Bai, C. Jia, T. Zhu and J. Zhang. Indoor Air Quality Related Standards in China. Proc. Indoor Air 2002, 1012–1017.

[MSS2010] Ministère de la santé et des sports, Gestion de la qualité de l’air intérieur, Guide pratique 2010.

[HSE2011] Health and Safety Executive. EH40/2005 Workplace Exposure Limits. 2011.

[Mannan_Al-Ghambi2021] M. Mannan, S. G. Al-Ghamdi. Indoor Air Quality in Buildings: A Comprehensive Review on the Factors Influencing Air Pollution in Residential and Commercial Structure. Int. J. Environ. Res. Public Health 2021, 18, 3276.

[GUO2017] F. Guo. Development of a model for controlling indoor air quality. Earth Sciences. University of Strasbourg, 2017.

[Pepper2009] D. W Pepper, D. Carrington. Modeling Indoor Air Pollution,2009.

[Kostyrko2020]M. Piasecki, K. Kostyrko. Development of Weighting Scheme for Indoor Air Quality Model Using a Multi-Attribute Decision Making. Energies 2020, 13, 3120.

[Wikipedia2021]. Transmission of COVID-19. Wikipedia,2021.

[Morawska2020] L. Morawska, J. W. Tang, W. Bahnfleth, P. M. Bluyssen, A. Boerstra, G. Buonanno, J. Cao, S. Dancer, A. Floto, F. Franchimon, C. Haworth, J. Hogeling, C. Isaxon, J. L. Jimenez, J. Kurnitski, Y. Li, M. Loomans, G. Marks, L. C. Marr, L. Mazzarella, A. K. Melikov, S. Miller, D. K. Milton, W. Nazaroff, P. V. Nielsen, C. Noakes, J. Peccia, X. Querol, C. Sekhar, O. Seppänen, S. Tanabe, R. Tellier, K. W. Tham, P. Wargocki, A. Wierzbicka, M. Yao, How can airborne transmission of COVID-19 indoors be minimised?, Environment International,Volume 142,2020,105832,ISSN 0160-4120.

[Alonso2021] A. Alonso,J. Llanos, R. Escandón, J.J. Sendra. Effects of the COVID-19 Pandemic on Indoor Air Quality and Thermal Comfort of Primary Schools in Winter in a Mediterranean Climate. Sustainability 2021, 13, 2699.

[Giordano2020] G. Giordano, F. Blanchini, R. Bruno, P. Colaneri, A. Di Filippo ,A. Di Matteo and M. Colaneri. Modelling the COVID-19 epidemic and implementation of population-wide interventions in Italy, Nat Med 26, 855–860 (2020).

[Lau2021] Z. Lau, K. Kaouri, I. M. Griffiths, A. English. Predicting the Spatially Varying Infection Risk in Indoor Spaces Using an Efficient Airborne Transmission Model, 18th May 2021.

[Piasecki2020] Piasecki, Michał & Radziszewska-Zielina, Elżbieta & Czerski, Piotr & Fedorczak-Cisak, Małgorzata & Zielina, Michał & Krzyściak, Paweł & Kwaśniewska-Sip, Patrycja & Grześkowiak, Wojciech. (2020). Implementation of the Indoor Environmental Quality (IEQ) Model for the Assessment of a Retrofitted Historical Masonry Building. Energies. 13. 6051. 10.3390/en13226051.