Papers and Articles

Papers Relating to Aero Select (also known as WRAS and Nano-ID Select)

  1. The work environment quality at the shaft furnace of a crude lead tapping and refining process
    K. Lach, K. Klouda & S. Brádka (2016) WIT Transactions on Ecology and The Environment, Vol 207, © 2016 WIT Press
  2. Fine and Ultrafine Aerosol in Ostrava Ambient Air.
    Karel Lach, Karel Klouda, Vladimír Mička, Lucie Hellebrandová (2016) Cent Eur J Public Health (Suppl): S51–S54
  3. A Novel Size-Selective Airborne Particle Size Fractionating Instrument for Health Risk Evaluation.
    Gorbunov, N. D. Priest, R. B. Muir, P. R. Jackson and H. Gnewuch (2009) A Novel Size-Selective Airborne Particle Size Fractionating Instrument for Health Risk Evaluation, Ann. Occup. Hyg., v.53, pp. 225–237
  4. Sampling Techniques for Respirable Crystalline Silica.
    P.R. Jackson, D. Cartlidge, L.S. Cobden and B. Gorbunov (2006) Sampling techniques for respirable crystalline silica. Advances in Science and Technology, Vol. 45, pp. 2163-2168
  5. A Novel Size-Selective Airborne Particle Sampling Instrument (WRAS) for Health Risk Evaluation.
    H. Gnewuch, R. Muir, B. Gorbunov, N.D. Priest, P.R. Jackson (2009) A Novel Size-Selective Airborne Particle Sampling Instrument (WRAS) for Health Risk Evaluation, pp. 225-233. In: Nanomaterials: Risk and Benefits. Ed. Igor Linkov and Jeffry Steevens. Springer, The Netherlands
  6. Evaluation of the Airborne Particles Fraction Responsible for Adverse Health Effects.
    B. Gorbunov, R. Muir, P. Jackson, ND. Priest (2013) Evaluation of the Airborne Particles Fraction Responsible for Adverse Health Effects. AAQR. Volume 13, No. 6, December 2013, Pages 1678-1692
  7. Raman spectroscopic identification of size-selected airborne particles for quantitative exposure assessment.
    B. Steer, B. Gorbunov, MC. Price and A. Podoleanu. (2016) Raman spectroscopic identification of size-selected airborne particles for quantitative exposure assessment. IOP Publishing Ltd. Measurement Science and Technology, Volume 27, Number 4
  8. Handbook of Nanosafety: Measurement, Exposure and Toxicology, written by leading international experts in nanosafety, provides a comprehensive understanding of engineered nanomaterials (ENM), current international nanosafety regulation, and how ENM can be safely handled in the workplace.
    Edited by: Ulla Vogel, Kai Savolainen, Qinglan Wu, Martie van Tongeren, Derk Brouwer and Markus Berges. Handbook of Nanosafety: Measurement, Exposure and Toxicology. ISBN: 978-0-12-416604-2. Academic Press. Published: 2nd January 2014. https://www.elsevier.com/books/handbook-of-nanosafety/vogel/978-0-12-416604-2 

 

Papers Relating to Aerosoliser (Previous model numbers: PA100, upgraded to PA100S)

  1. Characterization of manufactured TiO2 nanoparticles
    C Motzkus, T Macé, S. Vaslin-Reimann, P. Ausset and M. Maillé. (Nanosafe 2012) Characterization of manufactured TiO2 nanoparticles. Journal of Physics: Conference Series 429 (2013) 012012 DOI:10.1088/1742-6596/429/1/012012

 

Papers Relating to PMC500 and NPS500 Technology

  1. Surface Area Controlled Heterogeneous Nucleation.
    B. Steer, B. Gorbunov, J. Rowles, and D. Green (2012) Surface Area Controlled Heterogeneous Nucleation. AIP J. Chem. Phys. v.136, 054704
  2. Portable Planar DMA: Development and Tests.
    B. Steer , B. Gorbunov , R. Muir , A. Ghimire & J. Rowles (2014) Portable Planar DMA: Development and Tests, Aerosol Science and Technology, 48:3, 251-260, DOI: 10.1080/02786826.2013.868863

 

Papers Relating to NPS500 Theory / Condensation Particle Counters

  1. Free energy of embryo formation for heterogeneous multicomponent nucleation.
    Gorbunov B. (1999) Free energy of embryo formation for heterogeneous multicomponent nucleation J. Chem. Phys. 110, N20, pp. 10035-45
  2. From binary and ternary to multicomponent nucleation: Atmospheric aerosol formation.
    B. Gorbunov (2001) From binary and ternary to multicomponent nucleation. Atmospheric aerosol formation, J. Chem. Phys., v. 115, pp. 2641-2651

 

Papers Relating to NMT Technology

  1. Counting individual ions in the air by tagging them with particles
    B. Gorbunov (20 May 2017) Counting individual ions in the air by tagging them with particles. Chemical Physics 492 (2017) 1–4

 

Additional Papers

  1. Exposure – Dose Relationship for Airborne Nanoparticles. 
    B. Gorbunov, R. Muir, D. Bello, H. Gnewuch, A. LeCloux, F. Luizi, M. Del Tedesco, D. Green (2010) Exposure – Dose Relationship for Airborne Nanoparticles. In: Advances in Environmental Research. Volume 4, Ed. Justin A. Daniels, 325 p. Nova Publishes.

Sign Up to Our Newsletter