Particle Size Distribution of E-Cigarette Aerosols and the Relationship to Cambridge Filter Pad Collection Efficiency

1. Baker, R. R. and M. Dixon: The Retention of Tobacco Smoke Constituents in the Human Respiratory Tract; Inhal. Toxicol. 18 (2006) 255-294.Search in Google Scholar

2. Chang, P., L. K. Peters, and Y. Ueno: Particle Size Distribution of Mainstream Cigarette Smoke Undergoing Dilution; Aerosol Sci. Technol. 4 (1985) 191-207.Search in Google Scholar

3. Davies, C. N.: Cigarette Smoke: Generation and Properties of the Aerosol; J. Aerosol. Sci. 19 (1988) 463-469.Search in Google Scholar

4. Harris, E. and H. F. Kay: Size Distribution of Tobacco Smoke Particles; Nature 183 (1959) 741-742.Search in Google Scholar

5. Martonen, T. B.: Deposition Patterns of Cigarette Smoke in Human Airways; Am. Ind. Hyg. Assoc. J. 53 (1992) 6-18.Search in Google Scholar

6. Phalen, R. F., W. C. Cannon, and D. Esparaza: Com-parison of Impaction, Centrifugal Separation and Electron Microscopy for Sizing Cigarette Smoke; in: Fine Particles, edited by B. Y. H. Liu, Academic Press, New York, USA, 1976, pp. 732-736.10.1016/B978-0-12-452950-2.50035-XSearch in Google Scholar

7. Ingebrethsen, B. J.: The Physical Properties of Mainstream Cigarette Smoke and their Relationship to Deposition in the Respiratory Tract; in: Extrapolation of Dosimetric Relationships for Inhaled Particles and Gases, edited by J. D. Crapo, Academic Press, New York, USA, 1989, pp. 125-140.Search in Google Scholar

8. Ingebrethsen, B. J. and S. L. Alderman: Coagulation of Mainstream Cigarette Smoke in the Mouth During Puffing and Inhalation; Aerosol Sci. Technol. 44 (2011) 1422-1428.Search in Google Scholar

9. Hinds, W. C.: Chapter 9: Filtration; in: Aerosol Technology: Properties, Behavior, and Measurement of Airborne Particles, 2^nd Edition, John Wiley and Sons, New Jersey, USA, 1999, pp. 182-205.Search in Google Scholar

10. Lee, K. W. and B. Y. H. Liu: Experimental Study of Aerosol Filtration by Fibrous Filters; Aerosol Sci. Technol. 1 (1982) 35-46.Search in Google Scholar

11. Chen, B. T., J. Namenyi, H. C. Yeh, J. L. Mauderly, and R. G. Cuddihy: Physical Characterization of Cigarette Smoke Aerosol Generated from a Walton Smoke Machine; Aerosol Sci. Technol. 12 (1990) 364-375.Search in Google Scholar

12. Alderman, S. L. and B. J. Ingebrethsen: Character-ization of Mainstream Cigarette Smoke Particle Size Distributions from Commercial Cigarettes using a DMS500 Fast Particulate Spectrometer and Smoking Cycle Simulator; Aerosol Sci. Technol. 44 (2011) 1409-1421.Search in Google Scholar

13. Hinds, W. C.: Chapter 1: Introduction; in: Aerosol Technology: Properties, Behavior, and Measurement of Airborne Particles, 2^nd Edition, John Wiley and Sons, New Jersey, USA, 1999, pp. 1-14.Search in Google Scholar

14. Ingebrethsen, B. J., S. K. Cole, and S. L. Alderman: Electronic Cigarette Aerosol Particle Size Distribution Measurements; Inhal. Toxicol. 24 (2012) 976-984.Search in Google Scholar

15. Bernstein, D. M.: A Review of the Influence of Particle Size, Puff Volume, and Inhalation Pattern on the Deposition of Cigarette Smoke Particles in the Respiratory Tract; Inhal. Toxicol. 16 (2004) 675-689.Search in Google Scholar

16. Kane, D. B., B. Asgharian, O. T. Price, A. Rostami, and M. J. Oldham: Effect of Smoking Parameters on the Particle Size Distribution and Predicted Airway Deposition of Mainstream Cigarette Smoke; Inhal. Toxicol. 22 (2010) 199-209.Search in Google Scholar

17. Adam, T., J. McAughey, C. McGrath, C. Mocker, and R. Zimmermann: Simultaneous On-line Size and Chemical Analysis of Gas Phase and Particulate Phase of Cigarette Mainstream Smoke; Anal. Bioanal. Chem. 394 (2009) 1193-1203.Search in Google Scholar