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Aerosol Science and Technology Volume 29, 1998 - Issue 1
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Original Articles

Improvement of the Resolution of TSI's 3071 DMA via Redesigned Sheath Air and Aerosol Inlets

T. Eichler MECHANICAL ENGINEERING DEPARTMENT, YALE UNIVERSITY, NEW HAVEN, CT, 06520, USA
,
L. de Juan MECHANICAL ENGINEERING DEPARTMENT, YALE UNIVERSITY, NEW HAVEN, CT, 06520, USA
&
J. Fernandez de la Mora MECHANICAL ENGINEERING DEPARTMENT, YALE UNIVERSITY, NEW HAVEN, CT, 06520, USA
Pages 39-49 | Received 28 Jul 1997, Accepted 06 Feb 1998, Published online: 13 Jun 2007

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Juan Fernandez de la Mora, Patrick Gao & Luis J. Perez-Lorenzo. (2017) Eliminating the main source of instability and turbulence in TSI's 3071 DMA. Aerosol Science and Technology 51:7, pages 896-902.
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Guillermo Vidal-de-Miguel & Juan Fernandez de la Mora. (2012) Continuously Converging Multistage Focusing Lenses to Concentrate Aerosols at High Reynolds Numbers. Aerosol Science and Technology 46:3, pages 287-296.
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Jingkun Jiang, Michel Attoui, Michael Heim, NicholasA. Brunelli, PeterH. McMurry, Gerhard Kasper, RichardC. Flagan, Konstantinos Giapis & Guillaume Mouret. (2011) Transfer Functions and Penetrations of Five Differential Mobility Analyzers for Sub-2 nm Particle Classification. Aerosol Science and Technology 45:4, pages 480-492.
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Xiaoliang Wang & PeterH. McMurry. (2006) A Design Tool for Aerodynamic Lens Systems. Aerosol Science and Technology 40:5, pages 320-334.
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Dong Keun Song, Hyuksang Chang, Sang Soo Kim & Kikuo Okuyama. (2005) Numerical Evaluation of the Transfer Function of a Low Pressure DMA by Using the Langevin Dynamic Equation. Aerosol Science and Technology 39:8, pages 701-712.
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Xiaoliang Wang, Frank Einar Kruis & PeterH. McMurry. (2005) Aerodynamic Focusing of Nanoparticles: I. Guidelines for Designing Aerodynamic Lenses for Nanoparticles. Aerosol Science and Technology 39:7, pages 611-623.
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DonR. Collins, DavidR. Cocker, RichardC. Flagan & JohnH. Seinfeld. (2004) The Scanning DMA Transfer Function. Aerosol Science and Technology 38:8, pages 833-850.
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BengtG. Martinsson, MartinN. A. Karlsson & Göran Frank. (2001) Methodology to Estimate the Transfer Function of Individual Differential Mobility Analyzers. Aerosol Science and Technology 35:4, pages 815-823.
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Articles from other publishers (20)

Juan Fernandez de la Mora. (2024) Opinion: Should high-resolution differential mobility analyzers be used in mainstream aerosol studies?. Aerosol Research 2:1, pages 21-30.
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Yongxing Yuan, Tongzhu Yu, Yixin Yang, Huaqiao Gui & Jianguo Liu. (2023) Design and Experimental Validation of a High-Resolution Nanoparticle Differential Mobility Analyzer. Instruments and Experimental Techniques 66:4, pages 649-660.
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Chiranjivi Bhattarai & Andrey Khlystov. (2021) Derivation of particle-size changes from polydisperse size distribution measurements: numerical and experimental verification. Aerosol Science and Engineering 5:2, pages 214-222.
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I. Ibarra, J.J. Rodriguez-Maroto, E. Rojas & D. Sanz. (2021) CFD simulations to improve the aerosol tangential inlet of a Differential Mobility Analyzer. Journal of Aerosol Science 154, pages 105740.
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C. Loizidis, M. Costi, N. Lekaki, S. Bezantakos & G. Biskos. (2020) Improved performance of Differential Mobility Analyzers with 3D-printed flow straighteners. Journal of Aerosol Science 145, pages 105545.
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Yen-Hsun Tseng & Leonard F. PeaseIIIIII. (2014) Electrospray differential mobility analysis for nanoscale medicinal and pharmaceutical applications. Nanomedicine: Nanotechnology, Biology and Medicine 10:8, pages 1591-1600.
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Leonard F. PeaseIIIIII. (2012) Physical analysis of virus particles using electrospray differential mobility analysis. Trends in Biotechnology 30:4, pages 216-224.
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Juan Fernandez de la Mora. 2011. Aerosol Measurement. Aerosol Measurement 697 721 .
P. Vainshtein & M. Shapiro. (2009) Focusing in a quadrupole acoustic channel. Journal of Aerosol Science 40:8, pages 707-719.
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J. P. Santos, E. Hontañón, E. Ramiro & M. Alonso. (2009) Performance evaluation of a high-resolution parallel-plate differential mobility analyzer. Atmospheric Chemistry and Physics 9:7, pages 2419-2429.
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P. Vainshtein & M. Shapiro. (2008) Aerodynamic focusing in a channel with oscillating walls. Journal of Aerosol Science 39:11, pages 929-939.
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Juan Fernandez de la Mora. (2006) Aerodynamic focusing in spatially periodic flows: Two-dimensional symmetric and antisymmetric channels. Journal of Aerosol Science 37:3, pages 323-339.
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Martin N.A Karlsson & Bengt G Martinsson. (2003) Methods to measure and predict the transfer function size dependence of individual DMAs. Journal of Aerosol Science 34:5, pages 603-625.
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JaeHark Goo. (2002) Numerical simulation of aerosol concentration at atmospheric pressure by a cascade of aerodynamic slit lenses. Journal of Aerosol Science 33:11, pages 1493-1507.
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F.J Gómez-Moreno, J Rosell-Llompart & J Fernández de la Mora. (2002) Turbulent transition in impactor jets and its effects on impactor resolution. Journal of Aerosol Science 33:3, pages 459-476.
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Gerold Bacher, Wladyslaw W. Szymanski, Stanley L. Kaufman, Peter Zöllner, Dieter Blaas & Günter Allmaier. (2001) Charge‐reduced nano electrospray ionization combined with differential mobility analysis of peptides, proteins, glycoproteins, noncovalent protein complexes and viruses. Journal of Mass Spectrometry 36:9, pages 1038-1052.
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Renato P. Camata, Harry A. Atwater & Richard C. Flagan. (2001) Space-charge effects in nanoparticle processing using the differential mobility analyzer. Journal of Aerosol Science 32:5, pages 583-599.
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V. Boutou, C. Favre, A. Thomasson, R. Botet, J.P. Boch & J.P. Wolf. (2000) Laser diagnostics of nanometric soot particles from diesel engines. Laser diagnostics of nanometric soot particles from diesel engines.
George A. Jackson & Adrian B. Burd. (1998) Aggregation in the Marine Environment. Environmental Science & Technology 32:19, pages 2805-2814.
Crossref
L de Juan & J Fernández de la Mora. (1998) High resolution size analysis of nanoparticles and ions. Journal of Aerosol Science 29:5-6, pages 617-626.
Crossref

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