http://orcid.org/0000-0003-1227-6859
References
- Wiebert, P., M. Lönn, K. Fremling, et al.: Occupational exposure to particles and incidence of acute myocardial infarction and other ischaemic heart disease. Occup. Environ. Med. 69:651–657 (2012).
- Torén, K., and B. Järvholm: Effect of occupational exposure to vapors, gases, dusts, and fumes on COPD mortality risk among Swedish construction workers. Chest 145:992–997 (2014).
- Poinen-Rughooputh, S., M.S. Rughooputh, Y, Guo, et al.: Occupational exposure to silica dust and risk of lung cancer: An updated meta-analysis of epidemiological studies. BMC Public Health 16:1–17 (2016).
- Nothstein, G.L., R.M.A. Hahne, and M.W. Spence: Evaluation of the cost-effectiveness of various passive monitors and active monitors for industrial hygiene sampling. AIHA J. 61:64–68 (2000).
- Wagner, J., and D. Leith: Field tests of a passive aerosol sampler. J. Aerosol. Sci.32:33–48 (2001).
- Wagner, J., and D. Leith: Passive aerosol sampler. Part I: Principle of operation. Aerosol Sci. Technol. 34:186–192 (2001).
- Wagner, J., and D. Leith: Passive aerosol sampler. Part II: Wind tunnel experiments. Aerosol Sci. Technol. 34:193–201 (2001).
- Wagner, J., and J.M. Macher: Comparison of a passive aerosol sampler to size-selective pump samplers in indoor environments. AIHA J. 64:630–639 (2003).
- Leith, D., D. Sommerlatt, and M.G. Boundy: Passive sampler for PM10-2.5 aerosol. J. Air Waste Manage. Assoc. 57:332–336 (2007).
- Whitehead, T., and D. Leith: Passive aerosol sampler for particle concentrations and size distributions. J. Environ. Monit. 10:331–335 (2008).
- Shirdel, M., H. Wingfors, B.M. Andersson, et al.: A pilot study: The UNC passive aerosol sampler in a working environment. Ann. Work Expo. Health. 61:1029–1034 (2017).
- Shirdel, M., B.M. Andersson, I.A. Bergdahl, et al.: Improving the UNC passive aerosol sampler model based on comparison with commonly used aerosol sampling methods. Ann. Work Expo. Health. 62:328–338 (2018).
- Ott, D.K., W. Cyrs, and T.M. Peters: Passive measurement of coarse particulate matter, PM10–2.5. J. Aerosol Sci. 39:156–167 (2008).
- Schneider, T., V. Schlünssen, P.S. Vinzents, et al.: Passive sampler used for simultaneous measurement of breathing zone size distribution, inhalable dust concentration and other size fractions involving large particles. Ann. Occup. Hyg. 46:187–195 (2002).
- Hinds, W.C.: Aerosol Technology: Properties, Behavior, and Measurement of Airborne Particles. 2nd ed. New York: Wiley (1999).
- Licina, D., Y. Tian, and W.W. Nazaroff: Emission rates and the personal cloud effect associated with particle release from the perihuman environment. Indoor Air 27:791–802 (2017).
- You, R., W. Cui, C. Chen, et al.: Measuring the short-term emission rates of particles in the “personal cloud” with different clothes and activity intensities in a sealed chamber. Aerosol Air Qual. Res. 13:911–912 (2013).
- Peters, T.M., E.J. Sawvel, R. Willis, et al.: Performance of passive samplers analysed by computer-controlled scanning electron microscopy to measure PM10-2.5. Environ. Sci. Technol. 50:7581–7589 (2016).
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