This paper is in the following e-collection/theme issue:

Ubiquitous Health (uHealth) (123) Wearable Devices and Sensors (888) Environmental Health (79) Air Pollution (22)

Published on in Vol 6, No 3 (2018): March

Effect of Using an Indoor Air Quality Sensor on Perceptions of and Behaviors Toward Air Pollution (Pittsburgh Empowerment Library Study): Online Survey and Interviews

Effect of Using an Indoor Air Quality Sensor on Perceptions of and Behaviors Toward Air Pollution (Pittsburgh Empowerment Library Study): Online Survey and Interviews

Effect of Using an Indoor Air Quality Sensor on Perceptions of and Behaviors Toward Air Pollution (Pittsburgh Empowerment Library Study): Online Survey and Interviews

Authors of this article:

Gabrielle Wong-Parodi1 Author Orcid Image ;   M Beatrice Dias1 Author Orcid Image ;   Michael Taylor2 Author Orcid Image
Article Authors Cited by (27) Tweetations (5) Metrics

Journals

  1. Heydon J, Chakraborty R. Can portable air quality monitors protect children from air pollution on the school run? An exploratory study. Environmental Monitoring and Assessment 2020;192(3) View
  2. Boso À, Álvarez B, Oltra C, Garrido J, Muñoz C, Hofflinger Á. Out of sight, out of mind: participatory sensing for monitoring indoor air quality. Environmental Monitoring and Assessment 2020;192(2) View
  3. Boso À, Álvarez B, Oltra C, Garrido J, Muñoz C, Galvez-García G. The Grass Is Always Greener on My Side: A Field Experiment Examining the Home Halo Effect. Sustainability 2020;12(16):6335 View
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  5. Hernández-Gordillo A, Ruiz-Correa S, Robledo-Valero V, Hernández-Rosales C, Arriaga S. Recent advancements in low-cost portable sensors for urban and indoor air quality monitoring. Air Quality, Atmosphere & Health 2021;14(12):1931 View
  6. Collier-Oxandale A, Papapostolou V, Feenstra B, Der Boghossian B, Polidori A. Towards the Development of a Sensor Educational Toolkit to Support Community and Citizen Science. Sensors 2022;22(7):2543 View
  7. Rhee J, Ma J, Seo J, Cha S. Review of applications and user perceptions of smart home technology for health and environmental monitoring. Journal of Computational Design and Engineering 2022;9(3):857 View
  8. Heydon J, Chakraborty R. Wood burning stoves, participatory sensing, and ‘cold, stark data’. SN Social Sciences 2022;2(10) View
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  10. Chu M, Fenelon A, Rodriguez J, Zota A, Adamkiewicz G. Development of a multidimensional housing and environmental quality index (HEQI): application to the American Housing Survey. Environmental Health 2022;21(1) View
  11. Sauliene I, Valiulis A, Keriene I, Sukiene L, Dovydaityte D, Prokopciuk N, Valskys V, Valskiene R, Damialis A. Airborne pollen and fungi indoors: Evidence from primary schools in Lithuania. Heliyon 2023;9(1):e12668 View
  12. Hu C, Cheng J. Indoor Air Quality Certification and Consumers’ Willingness: Taiwan’s Experience and Survey. Atmosphere 2021;12(10):1320 View
  13. Park Y, Chavez D, Sousan S, Figueroa-Bernal N, Alvarez J, Rocha-Peralta J. Personal exposure monitoring using GPS-enabled portable air pollution sensors: A strategy to promote citizen awareness and behavioral changes regarding indoor and outdoor air pollution. Journal of Exposure Science & Environmental Epidemiology 2023;33(3):347 View
  14. Robinson J, Novak R, Kanduč T, Maggos T, Pardali D, Stamatelopoulou A, Saraga D, Vienneau D, Flückiger B, Mikeš O, Degrendele C, Sáňka O, García Dos Santos-Alves S, Visave J, Gotti A, Persico M, Chapizanis D, Petridis I, Karakitsios S, Sarigiannis D, Kocman D. User-Centred Design of a Final Results Report for Participants in Multi-Sensor Personal Air Pollution Exposure Monitoring Campaigns. International Journal of Environmental Research and Public Health 2021;18(23):12544 View
  15. McCarron A, Semple S, Braban C, Swanson V, Gillespie C, Price H. Public engagement with air quality data: using health behaviour change theory to support exposure-minimising behaviours. Journal of Exposure Science & Environmental Epidemiology 2023;33(3):321 View
  16. Kureshi R, Thakker D, Mishra B, Barnes J. From Raising Awareness to a Behavioural Change: A Case Study of Indoor Air Quality Improvement Using IoT and COM-B Model. Sensors 2023;23(7):3613 View
  17. Dwivedi S, Zehra F, Masih J, Gupta T, Lawrence A. Investigating the temporal dynamics of sub-micron particles and particle-bound transition metals in indoor air of a metropolitan city. Environmental Geochemistry and Health 2024;46(2) View
  18. McCarron A, Semple S, Swanson V, Gillespie C, Braban C, Price H. Piloting co-developed behaviour change interventions to reduce exposure to air pollution and improve self-reported asthma-related health. Journal of Exposure Science & Environmental Epidemiology 2024 View
  19. Loraas D. Can Buildings Make Teachers Leave? The Complex Relationship Between Teachers and Their School Building: From an Interior Designer’s Perspective. Leadership and Policy in Schools 2024:1 View
  20. Kamis A, Gadia N, Luo Z, Ng S, Thumbar M. Obtaining the Most Accurate, Explainable Model for Predicting Chronic Obstructive Pulmonary Disease: Triangulation of Multiple Linear Regression and Machine Learning Methods. JMIR AI 2024;3:e58455 View
  21. Veiga I, Naranjo-Zolotov M, Martins R, Oliveira T, Karatzas S, Wang F. Indoor Air Quality: Predicting and Comparing Protective Behaviors in Germany and Portugal. Indoor Air 2024;2024(1) View
  22. Durand F, Besson T, Bonnefoy B, Meyer T. From Interior Aesthetics to Perceived Indoor Air Quality: A Home Halo Effect. Journal of Interior Design 2024 View

Books/Policy Documents

  1. John M, Kleppisch M. Prävention und Gesundheitsförderung. View
  2. John M, Kleppisch M. Prävention und Gesundheitsförderung. View