Single-particle Raman spectroscopy for studying physical and chemical processes of atmospheric particles

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review

22 Scopus Citations
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Detail(s)

Original languageEnglish
Pages (from-to)3017-3044
Journal / PublicationAtmospheric Chemistry and Physics
Volume22
Issue number5
Online published7 Mar 2022
Publication statusPublished - 7 Mar 2022

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Abstract

Atmospheric particles experience various physical and chemical processes and change their properties during their lifetime. Most studies on atmospheric particles, both in laboratory and field measurements, rely on analyzing an ensemble of particles. Because of different mixing states of individual particles, only average properties can be obtained from studies using ensembles of particles. To better understand the fate and environmental impacts of atmospheric particles, investigations on their properties and processes at a single-particle level are valuable. Among a wealth of analytic techniques, single-particle Raman spectroscopy provides an unambiguous characterization of individual particles under atmospheric pressure in a non-destructive and in situ manner. This paper comprehensively reviews the application of such a technique in the studies of atmospheric particles, including particle hygroscopicity, phase transition and separation, and solute-water interactions, particle pH, and multiphase reactions. Investigations on enhanced Raman spectroscopy and bioaerosols on a single-particle basis are also reviewed. For each application, we describe the principle and representative examples of studies. Finally, we present our views on future directions on both technique development and further applications of single-particle Raman spectroscopy in studying atmospheric particles.

Research Area(s)

  • LIQUID PHASE-SEPARATION, AMMONIUM-SULFATE PARTICLES, COMPLEX REFRACTIVE-INDEX, ATOMIC-FORCE MICROSCOPY, AEROSOL-PARTICLES, HYGROSCOPIC BEHAVIOR, WATER-UPTAKE, OXALIC-ACID, HETEROGENEOUS REACTIONS, RELATIVE-HUMIDITY

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