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Aerosol Science and Technology Volume 39, 2005 - Issue 12
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Original Articles

Characterization of an Automated, Water-Based Expansion Condensation Nucleus Counter for Ultrafine Particles

Andreas Kürten Johannes Gutenberg-University Mainz, Institute for Atmospheric Physics, Mainz, Germany
,
Joachim Curtius Johannes Gutenberg-University Mainz, Institute for Atmospheric Physics, Mainz, Germany
,
Björn Nillius Johannes Gutenberg-University Mainz, Institute for Atmospheric Physics, Mainz, Germany
&
Stephan Borrmann Johannes Gutenberg-University Mainz, Institute for Atmospheric Physics, Mainz, Germany; Max-Planck-Institute for Chemistry, Particle Chemistry Department, Mainz, Germany
Pages 1174-1183 | Received 09 Jun 2005, Accepted 24 Oct 2005, Published online: 23 Feb 2007

Citations (14)

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Juha Kangasluoma & Michael Attoui. (2019) Review of sub-3 nm condensation particle counters, calibrations, and cluster generation methods. Aerosol Science and Technology 53:11, pages 1277-1310.
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J. Vanhanen, J. Mikkilä, K. Lehtipalo, M. Sipilä, H.E. Manninen, E. Siivola, T. Petäjä & M. Kulmala. (2011) Particle Size Magnifier for Nano-CN Detection. Aerosol Science and Technology 45:4, pages 533-542.
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Hossein Saghafifar, Andreas Kürten, Joachim Curtius, Sarah-Lena von der Weiden, Smaeyl Hassanzadeh & Stephan Borrmann. (2009) Characterization of a Modified Expansion Condensation Particle Counter for Detection of Nanometer-Sized Particles. Aerosol Science and Technology 43:8, pages 767-780.
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T. Petäjä, G. Mordas, H. Manninen, P.P. Aalto, K. Hämeri & M. Kulmala. (2006) Detection Efficiency of a Water-Based TSI Condensation Particle Counter 3785. Aerosol Science and Technology 40:12, pages 1090-1097.
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Articles from other publishers (10)

Fan Mei, Steven Spielman, Susanne Hering, Jian Wang, Mikhail S. Pekour, Gregory Lewis, Beat Schmid, Jason Tomlinson & Maynard Havlicek. (2021) Simulation-aided characterization of a versatile water-based condensation particle counter for atmospheric airborne research. Atmospheric Measurement Techniques 14:11, pages 7329-7340.
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Wenming Yang & Rong Zhu. (2014) A PCB type aerosol sensor for measuring nanoscale aerosol particles. A PCB type aerosol sensor for measuring nanoscale aerosol particles.
Yung‐Sung Cheng. 2011. Aerosol Measurement. Aerosol Measurement 381 392 .
T. Kowalski, J. Judex, T. J. Schildhauer & C. Ludwig. (2010) Transmission of Alkali Aerosols through Sampling Systems. Chemical Engineering & Technology 34:1, pages 42-48.
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F. Stratmann, E. Herrmann, T. Petäjä & M. Kulmala. (2010) Modelling Ag-particle activation and growth in a TSI WCPC model 3785. Atmospheric Measurement Techniques 3:1, pages 273-281.
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Markku Kulmala & Mikko Sipilä. 2010. Nanoparticles in medicine and environment. Nanoparticles in medicine and environment 77 89 .
R. Weigel, M. Hermann, J. Curtius, C. Voigt, S. Walter, T. Böttger, B. Lepukhov, G. Belyaev & S. Borrmann. (2009) Experimental characterization of the COndensation PArticle counting System for high altitude aircraft-borne application. Atmospheric Measurement Techniques 2:1, pages 243-258.
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Markku Kulmala & Veli-Matti Kerminen. (2008) On the formation and growth of atmospheric nanoparticles. Atmospheric Research 90:2-4, pages 132-150.
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M. Sipilä, K. Lehtipalo, M. Kulmala, T. Petäjä, H. Junninen, P. P. Aalto, H. E. Manninen, E.-M. Kyrö, E. Asmi, I. Riipinen, J. Curtius, A. Kürten, S. Borrmann & C. D. O'Dowd. (2008) Applicability of condensation particle counters to measure atmospheric clusters. Atmospheric Chemistry and Physics 8:14, pages 4049-4060.
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Joachim Curtius. (2006) Nucleation of atmospheric aerosol particles. Comptes Rendus. Physique 7:9-10, pages 1027-1045.
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