Aerosol volatility and enthalpy of sublimation of carboxylic acids.
Journal article, 2010

The enthalpy of sublimation has been determined for nine carboxylic acids, two cyclic (pinonic and pinic acid) and seven straight-chain dicarboxylic acids (C(4) to C(10)). The enthalpy of sublimation was determined from volatility measurements of nano aerosol particles using a volatility tandem differential mobility analyzer (VTDMA) set-up. Compared to the previous use of a VTDMA, this novel method gives enthalpy of sublimation determined over an extended temperature range (DeltaT approximately 40 K). The determined enthalpy of sublimation for the straight-chain dicarboxylic acids ranged from 96 to 161 kJ mol(-1), and the calculated vapor pressures at 298 K are in the range of 10(-6)-10(-3) Pa. These values indicate that dicarboxylic acids can take part in gas-to-particle partitioning at ambient conditions and may contribute to atmospheric nucleation, even though homogeneous nucleation is unlikely. To obtain consistent results, some experimental complications in producing nanosized crystalline aerosol particles were addressed. It was demonstrated that pinonic acid "used as received" needed a further purification step before being suspended as a nanoparticle aerosol. Furthermore, it was noted from distinct differences in thermal properties that aerosols generated from pimelic acid solutions gave two types of particles. These two types were attributed to crystalline and amorphous configurations, and based on measured thermal properties, the enthalpy of vaporization was 127 kJ mol(-1) and that of sublimation was 161 kJ mol(-1). This paper describes a new method that is complementary to other similar methods and provides an extension of existing experimental data on physical properties of atmospherically relevant compounds.

analysis

Pimelic Acids

Volatilization

analysis

chemistry

Atmosphere

analysis

chemistry

chemistry

chemistry

chemistry

Fatty Acids

Molecular Structure

Thermodynamics

analysis

Dicarboxylic Acids

chemistry

analysis

Aerosols

Air Pollutants

Author

Kent Salo

University of Gothenburg

Åsa M. Jonsson

University of Gothenburg

Patrik U Andersson

University of Gothenburg

Mattias Hallquist

University of Gothenburg

Journal of Physical Chemistry A

1089-5639 (ISSN) 1520-5215 (eISSN)

Vol. 114 13 4586-94

Subject Categories

Chemical Sciences

DOI

10.1021/jp910105h

PubMed

20235543

More information

Created

10/10/2017