Investigation of the Chemical
Mixing State of Individual
Asian Dust Particles by the Combined Use of Electron Probe X-ray Microanalysis
and Raman Microspectrometry
posted on 2016-02-21, 15:51authored bySophie Sobanska, HeeJin Hwang, Marie Choël, Hae-Jin Jung, Hyo-Jin Eom, HyeKyeong Kim, Jacques Barbillat, Chul-Un Ro
In this work, quantitative electron probe X-ray microanalysis
(EPMA)
and Raman microspectrometry (RMS) were applied in combination for
the first time to characterize the complex internal structure and
physicochemical properties of the same ensemble of Asian dust particles.
The analytical methodology to obtain the chemical composition, mixing
state, and spatial distribution of chemical species within single
particles through the combined use of the two techniques is described.
Asian dust aerosol particles collected in Incheon, Korea, during a
moderate dust storm event were examined to assess the applicability
of the methodology to resolve internal mixtures within single particles.
Among 92 individual analyzed particles, EPMA and RMS identified 53%
of the particles to be internally mixed with two or more chemical
species. Information on the spatial distribution of chemical compounds
within internally mixed individual particles can be useful for deciphering
the particle aging mechanisms and sources. This study demonstrates
that the characterization of individual particles, including chemical
speciation and mixing state analysis, can be performed more in detail
using EPMA and RMS in combination than with the two single-particle
techniques alone.