Photoinduced nucleation: A novel tool for detecting molecules in air at ultra-low concentrations

This paper describes the development of a novel detection method and the demonstration of its capability to detect substances at concentrations as small as a few parts per trillion. It is shown that photoinduced nucleation is not in itself a nucleation process; rather, supersaturated vapor condenses...

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Veröffentlicht in:The Journal of chemical physics 2000-05, Vol.112 (19), p.8363-8366
Hauptverfasser: Katz, Joseph L., Lihavainen, Heikki, Rudek, Markus M., Salter, Brian C.
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container_issue 19
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container_title The Journal of chemical physics
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creator Katz, Joseph L.
Lihavainen, Heikki
Rudek, Markus M.
Salter, Brian C.
description This paper describes the development of a novel detection method and the demonstration of its capability to detect substances at concentrations as small as a few parts per trillion. It is shown that photoinduced nucleation is not in itself a nucleation process; rather, supersaturated vapor condenses onto long-lasting clusters formed by chemical reaction of photo-excited molecules. The role of the supersaturated vapor is to increase the size of these photoproducts by condensation to a size readily detectable by light scattering. Furthermore, the measured nucleation rate variation with illumination wavelength exactly matches the substance’s vapor-phase UV light absorption wavelength dependence, thus providing species identification. The ability to detect and identify molecules of substances at extremely low concentrations from ambient air is useful for detecting and monitoring pollutants, and for detecting explosives such as TNT.
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subjects ATOMIC AND MOLECULAR PHYSICS
DETECTION
EXPERIMENTAL DATA
EXPLOSIVES
INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY
MEASURING METHODS
MOLECULES
NUCLEATION
PHOTOCHEMICAL REACTIONS
POLLUTANTS
ULTRAVIOLET RADIATION
VAPOR CONDENSATION
title Photoinduced nucleation: A novel tool for detecting molecules in air at ultra-low concentrations
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