Expanded flow rate range of high-resolution nanoDMAs via improved sample flow injection at the aerosol inlet slit
Juan Fernandez de la Mora

TL;DR
This study enhances the flow rate range of high-resolution nanoDMAs by optimizing sample flow injection using a perforated ring, enabling better classification of particles larger than 30 nm at modest flow rates.
Contribution
Introduction of a perforated ring upstream of the inlet slit to improve flow symmetry and resolution in high-resolution nanoDMAs at moderate flow rates.
Findings
Perforated ring improves DMA resolution at higher flow rates.
Resolution approaches ideal with symmetric flow distribution.
Particle classification size limit extends beyond 30 nm.
Abstract
High-resolution DMAs requiring hundreds of liters per minute of sheath gas flow Q to classify 1 nm particles have not been previously examined and optimized under the modest Q values (tens of liters per minute) needed to classify particles well above 10 nm. Here we study the resolving power R (based on the relative width of the transfer function) of the Halfmini DMA, at sample flow rates q beyond 1 l/min. The charge-reduced electrosprayed ovalbumin protein used as test aerosol has an accurately determinable Gaussian mobility distribution, which limits the measurable R to at most 25 to 30. Non-ideal DMA response can however be precisely probed by comparing measured peak widths with the convolution of the protein's mobility distribution with the triangular Knutson-Whitby distribution associated to the finite qi/Q ratio. For the unmodified Halfmini DMA, R departs considerably from ideal at…
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Taxonomy
TopicsElectrohydrodynamics and Fluid Dynamics · Mass Spectrometry Techniques and Applications · Coagulation and Flocculation Studies
