Published on in Vol 6, No 12 (2018): December

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/12023, first published .
Usability of a Personal Air Pollution Monitor: Design-Feedback Iterative Cycle Study

Usability of a Personal Air Pollution Monitor: Design-Feedback Iterative Cycle Study

Usability of a Personal Air Pollution Monitor: Design-Feedback Iterative Cycle Study

Journals

  1. Duncan G, Avery A, Strachan E, Turkheimer E, Tsang S. The Washington State Twin Registry: 2019 Update. Twin Research and Human Genetics 2019;22(6):788 View
  2. Rutherford J, Dawson-Elli N, Manicone A, Korshin G, Novosselov I, Seto E, Posner J. Excitation emission matrix fluorescence spectroscopy for combustion generated particulate matter source identification. Atmospheric Environment 2020;220:117065 View
  3. Makhsous S, Segovia J, He J, Chan D, Lee L, Novosselov I, Mamishev A. Methodology for Addressing Infectious Aerosol Persistence in Real-Time Using Sensor Network. Sensors 2021;21(11):3928 View
  4. Lee U, van Neel T, Lim F, Khor J, He J, Vaddi R, Ong A, Tang A, Berthier J, Meschke J, Novosselov I, Theberge A, Berthier E. Miniaturizing Wet Scrubbers for Aerosolized Droplet Capture. Analytical Chemistry 2021;93(33):11433 View
  5. Huang C, He J, Austin E, Seto E, Novosselov I, Shi Z. Assessing the value of complex refractive index and particle density for calibration of low-cost particle matter sensor for size-resolved particle count and PM2.5 measurements. PLOS ONE 2021;16(11):e0259745 View
  6. He J, Huang C, Yuan N, Austin E, Seto E, Novosselov I. Network of low-cost air quality sensors for monitoring indoor, outdoor, and personal PM2.5 exposure in Seattle during the 2020 wildfire season. Atmospheric Environment 2022;285:119244 View
  7. Glenn K, He J, Rochlin R, Teng S, Hecker J, Novosselov I. Assessment of aerosol persistence in ICUs via low-cost sensor network and zonal models. Scientific Reports 2023;13(1) View