Biomedical Engineering Reference
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Fuchs, N.A. (1963): On the stationary charge distribution on aerosol particles in bipolar ionic
atmosphere,
Geofisica pura e applicata
, 56: 185-193.
Hämeri, K., Koponen, I.K., Aalto, P.P., Kulmala, M., (2002): Technical note: the particle
detection efficiency of the TSI-3007 condensation particle counter,
J Aerosol Sci
, 33:
1463-1469.
He, M., Dhaniyala, S. (2013): A multiple charging correction algorithm for scanning electrical
mobility spectrometer data,
J Aerosol Sci
,
61: 13-26.
Hellack, B. (2012): Räumliche, zeitliche und quellenbedingte Variation Feinstaub induzi-
erter Hydroxylradikalgenerierung,
Ph.D. Thesis at the University Duisburg-Essen
,
available online: http://duepublico.uni-duisburg-essen.de/servlets/DerivateServlet/
Derivate-31869/Hellack_Diss.pdf (accessed November 23rd, 2013)
Hering, S.V., Stolzenburg, M.R., Quant, F.R., Oberreit, D.R., Keady, P.B. (2005):
A laminar-flow, water-based condensation particle counter (WCPC),
Aerosol Sci
Technol
, 39: 659-672.
Hinds, W.C. (1999):
Aerosol Technology—Properties
,
Behavior
,
and Measurement of Airborne
Particles
, John Wiley & Sons, Inc., New York.
Hoppel, W.A. (1978): Determination of the aerosol size distribution from the mobility distri-
bution of the charged fraction of aerosols,
J Aerosol Sci
, 9: 41-54.
ISO 15900:2009 (2009): Determination of particle size distribution—Differential electrical
mobility analysis for aerosol particles.
Jeong, C.H., Evans, G.J. (2009): Inter-comparison of a fast mobility particle sizer and a scan-
ning mobility particle sizer incorporating an ultrafine water-based condensation particle
counter,
Aerosol Sci Technol
, 43: 364-373.
John, A.C., Kuhlbusch, T.A.J., Fissan, H., Schmidt, K.G. (2001): Size-fractionated sampling
and chemical analysis be total-reflection x-ray fluorescence spectrometry of PMx in
ambient air and emissions,
Spectrochim Acta B
,
56: 2137-2146.
Kaminski, H., Kuhlbusch, T.A.J., Fissan, H., Ravi, L., Horn, H.-G., Han, H.S., Caldow, R.,
Asbach, C. (2012): Experimental and mathematical evaluation of an improved unipolar
diffusion charger for size distribution measurement,
Aerosol Sci Technol
, 46: 708-716.
Kaminski, H., Rath, S., Götz, U., Sprenger, M., Wels, D., Polloczek, J., Bachmann, V. et al.
(2013): Comparability of mobility particle sizers and diffusion chargers,
J Aerosol Sci
,
57: 156-178.
Keller, A., Tritscher, T., Burtscher, H. (2013): Performance of a water-based CPC 3788 for
particles from a propane-flame soot-generator operated with rich fuel/air mixtures,
J Aerosol Sci
, 60: 67-72.
Keskinen, J., Pietarinen, K., Lehtimäki, M. (1992): Electrical low pressure impactor,
J Aerosol
Sci
,
23: 353-360.
Khlystov, A., Stanier, C., Pandis, S.N. (2004): An algorithm for combining electrical mobility
and aerodynamic size distributions data when measuring ambient aerosol,
Aerosol Sci
Technol
,
38: 229-238.
Kim, J.H., Mulholland, G.W., Kuckuck, S.R., Pui, D.Y.H. (2005): Slip correction measure-
ments of certified PSL nanoparticles using a nanometer differential mobility analyzer
(Nano-DMA) for Knudsen number from 0.5 to 83,
J Res NIST
, 110: 31-54.
Kuhlbusch, T.A.J., Asbach, C., Fissan, H., Göhler, D., Stintz, M. (2011): Nanoparticle expo-
sure at nanotechnology workplaces: A review,
Part Fibre Tox
,
8: 1-18.
Lee, H.M., Kim, C.S., Shimada, M., Okuyama, K. (2005): Bipolar diffusion charging for aero-
sol nanoparticle measurement using a soft X-ray charger,
J Aerosol Sci
, 36: 813-829.
Marple, V., Rubow, K., Ananth, G., Fissan, H.J. (1986): Micro orifice uniform deposit
impactor,
J Aerosol Sci
,
17: 489-494.
Marra, J., Voetz, M., Kiesling, H.J. (2010): Monitor for detecting and assessing exposure to
airborne nanoparticles,
J Nanopart Res
, 12: 21-37.
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