Roles of the Phase State and Water Content in Ozonolysis of Internal Mixtures of Maleic Acid and Ammonium Sulfate Particles

Chan, Lap P.; Chan, Chak Keung

doi:10.1080/02786826.2012.665514

Cited by 12 publications

(19 citation statements)

References 48 publications

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“…Reactive transformations in levitated droplets have largely been investigated with nondestructive optical probes 15,[17][18][19][20][21][22][23] . While functional group information is available from Raman spectroscopy, it cannot always provide specific information on the composition of a droplet undergoing chemical transformations.…”

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confidence: 99%

Combining Mass Spectrometry of Picoliter Samples with a Multicompartment Electrodynamic Trap for Probing the Chemistry of Droplet Arrays

2020

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Single droplet levitation provides contactless access to the microphysical and chemical properties of micron-sized samples. Most applications of droplet levitation to chemical and biological systems use non-destructive optical techniques to probe droplet properties. To provide improved chemical specificity, we couple a multi-compartment quadrupole electrodynamic trap (QET) to single droplet mass spectrometry. Our QET continuously traps a monodisperse droplet population (∼10's -100's of droplets), and allows for simultaneous sizing of a single droplet using its Mie scattering pattern. Single droplets are subsequently ejected to the ionization region of an ambient pressure inlet mass spectrometer. We optimize two complementary soft ionization techniques for picoliter aqueous droplets: paper spray (PS) ionization and thermal desorption glow discharge (TDGD) ionization. Both techniques detect oxygenated organic acids in single droplets with signal-to-noise ratios >100 and detection limits on the order of

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confidence: 99%

Combining Mass Spectrometry of Picoliter Samples with a Multicompartment Electrodynamic Trap for Probing the Chemistry of Droplet Arrays

2020

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“…Aqueous MA was found to be more reactive towards ozone than crystalline MA. Interestingly, they also found that higher water content favors more efficient ozonolysis, although the concentration of MA is accordingly lower (Chan and Chan, 2012). Furthermore, ozonolysis of optically trapped bioaerosol particles has also been reported.…”

Section: Multiphase Oxidation Of Aerosol Particlesmentioning

confidence: 95%

“…The oleic acid ozonolysis was completed in ∼ 3000 s, but the decrease in droplet volume still lasts for an additional ∼ 5000 s due to the slow volatilization of the products (Dennis-Smither et al, 2012). Chan and Chan (2012) studied the roles of the phase state and water content in the ozonolysis of maleic acid (MA) and AS mixed particles. Aqueous MA was found to be more reactive towards ozone than crystalline MA.…”

Section: Multiphase Oxidation Of Aerosol Particlesmentioning

confidence: 99%

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

et al. 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.

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“…Interestingly, they also found that higher water content favors more efficient ozonolysis, although the concentration of MA is accordingly lower. (Chan and Chan, 2012) Furthermore, ozonolysis of optically trapped bioaerosol particles has also been reported. In general, lipids and proteins show distinct v(C-H) peaks at 2855 cm -1 and 2928 cm -1 , respectively.…”

Roles of the Phase State and Water Content in Ozonolysis of Internal Mixtures of Maleic Acid and Ammonium Sulfate Particles

Cited by 12 publications

References 48 publications

Combining Mass Spectrometry of Picoliter Samples with a Multicompartment Electrodynamic Trap for Probing the Chemistry of Droplet Arrays

Combining Mass Spectrometry of Picoliter Samples with a Multicompartment Electrodynamic Trap for Probing the Chemistry of Droplet Arrays

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

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