Heterogeneous nucleation in multi-component vapor on a partially wettable charged conducting particle. I. Formulation of general equations: Electrical surface and line excess quantities

M. Noppel; H. Vehkamaki; Paul Winkler; M. Kulmala; Paul Wagner

doi:10.1063/1.4822046

Heterogeneous nucleation in multi-component vapor on a partially wettable charged conducting particle. I. Formulation of general equations: Electrical surface and line excess quantities

M. Noppel (Corresponding author)
, H. Vehkamaki
, Paul Winkler
, M. Kulmala
, Paul Wagner

Aerosol Physics and Environmental Physics

Publications: Contribution to journal › Article › Peer Reviewed

Abstract

Thermodynamics is applied to formulate general equations for internal energies and grand potential for a system consisting of a dielectric liquid nucleus of a new phase on a charged insoluble conducting sphere within a uniform macroscopic one- or multicomponent mother phase. The currently available model for ion-induced nucleation assumes complete spherical symmetry of the system, implying that the seed ion is immediately surrounded by the condensing liquid from all sides. We take a step further and treat more realistic geometries, where a cap-shaped liquid cluster forms on the surface of the seed particle. To take into account spontaneous polarization of surface layer molecules we introduce the electrical surface and line excess quantities.

Original language	English
Article number	134107
Number of pages	17
Journal	Journal of Chemical Physics
Volume	139
Issue number	13
DOIs	https://doi.org/10.1063/1.4822046
Publication status	Published - 7 Oct 2013

Funding

This work was supported by the Estonian Science Foundation (Grant No. 8806), the Estonian Research Council Targeted Financing Project (SF0180043s08), and Academy of Finland (Project No. 1127372, Center of Excellence Program Project No. 1118615, The Computational Science Research Programme of Academy of Finland Project No. 135054), European Research Council Starting Grant No. 257360-MOCAPAF.

Austrian Fields of Science 2012

103020 Surface physics
103029 Statistical physics

Keywords

ION-INDUCED NUCLEATION
SUPERSATURATED WATER-VAPOR
MACROSCOPIC MOTHER PHASE
N-BUTANOL VAPOR
SOLUBLE NUCLEI
FREE-ENERGY
CHARGED/NEUTRAL NANOPARTICLES
CONDENSATION NUCLEUS
THERMODYNAMIC THEORY
AXISYMMETRIC SHAPES

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10.1063/1.4822046

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title = "Heterogeneous nucleation in multi-component vapor on a partially wettable charged conducting particle. I. Formulation of general equations: Electrical surface and line excess quantities",

abstract = "Thermodynamics is applied to formulate general equations for internal energies and grand potential for a system consisting of a dielectric liquid nucleus of a new phase on a charged insoluble conducting sphere within a uniform macroscopic one- or multicomponent mother phase. The currently available model for ion-induced nucleation assumes complete spherical symmetry of the system, implying that the seed ion is immediately surrounded by the condensing liquid from all sides. We take a step further and treat more realistic geometries, where a cap-shaped liquid cluster forms on the surface of the seed particle. To take into account spontaneous polarization of surface layer molecules we introduce the electrical surface and line excess quantities.",

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author = "M. Noppel and H. Vehkamaki and Paul Winkler and M. Kulmala and Paul Wagner",

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Heterogeneous nucleation in multi-component vapor on a partially wettable charged conducting particle. I. Formulation of general equations: Electrical surface and line excess quantities. / Noppel, M. (Corresponding author); Vehkamaki, H.; Winkler, Paul et al.
In: Journal of Chemical Physics, Vol. 139, No. 13, 134107, 07.10.2013.

Publications: Contribution to journal › Article › Peer Reviewed

TY - JOUR

T1 - Heterogeneous nucleation in multi-component vapor on a partially wettable charged conducting particle. I. Formulation of general equations: Electrical surface and line excess quantities

AU - Noppel, M.

AU - Vehkamaki, H.

AU - Winkler, Paul

AU - Kulmala, M.

AU - Wagner, Paul

PY - 2013/10/7

Y1 - 2013/10/7

N2 - Thermodynamics is applied to formulate general equations for internal energies and grand potential for a system consisting of a dielectric liquid nucleus of a new phase on a charged insoluble conducting sphere within a uniform macroscopic one- or multicomponent mother phase. The currently available model for ion-induced nucleation assumes complete spherical symmetry of the system, implying that the seed ion is immediately surrounded by the condensing liquid from all sides. We take a step further and treat more realistic geometries, where a cap-shaped liquid cluster forms on the surface of the seed particle. To take into account spontaneous polarization of surface layer molecules we introduce the electrical surface and line excess quantities.

AB - Thermodynamics is applied to formulate general equations for internal energies and grand potential for a system consisting of a dielectric liquid nucleus of a new phase on a charged insoluble conducting sphere within a uniform macroscopic one- or multicomponent mother phase. The currently available model for ion-induced nucleation assumes complete spherical symmetry of the system, implying that the seed ion is immediately surrounded by the condensing liquid from all sides. We take a step further and treat more realistic geometries, where a cap-shaped liquid cluster forms on the surface of the seed particle. To take into account spontaneous polarization of surface layer molecules we introduce the electrical surface and line excess quantities.

KW - ION-INDUCED NUCLEATION

KW - SUPERSATURATED WATER-VAPOR

KW - MACROSCOPIC MOTHER PHASE

KW - N-BUTANOL VAPOR

KW - SOLUBLE NUCLEI

KW - FREE-ENERGY

KW - CHARGED/NEUTRAL NANOPARTICLES

KW - CONDENSATION NUCLEUS

KW - THERMODYNAMIC THEORY

KW - AXISYMMETRIC SHAPES

U2 - 10.1063/1.4822046

DO - 10.1063/1.4822046

M3 - Article

SN - 0021-9606

VL - 139

JO - Journal of Chemical Physics

JF - Journal of Chemical Physics

IS - 13

M1 - 134107

ER -

Heterogeneous nucleation in multi-component vapor on a partially wettable charged conducting particle. I. Formulation of general equations: Electrical surface and line excess quantities

Abstract

Funding

Austrian Fields of Science 2012

Keywords

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