Spherulitic crystallization in binary thin films under solvent-vapor annealing. I. A sharp-interface theory

Michel Jabbour; Chi Sing Man; Roberto Paroni

doi:10.1063/1.4823739

Spherulitic crystallization in binary thin films under solvent-vapor annealing. I. A sharp-interface theory

Michel Jabbour
, Chi Sing Man
, Roberto Paroni

University of Kentucky
Dipartimento di Scienze Biomediche

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

We present a thermodynamically consistent theory for solvent-vapor induced spherulitic crystallization in binary thin-film blends, including those which consist of polymeric or organic small-molecule semiconductors. Under the proposed theory, spherulitic growth is interface driven, with no diffusion of any species. The thermodynamic driving force at the interface between the spherulite and amorphous phase is identified, and a kinetic relation that delivers a constant growth rate is proposed.

langue originale	Anglais
Numéro d'article	144704
journal	Journal of Chemical Physics
Volume	139
Numéro de publication	14
Les DOIs	https://doi.org/10.1063/1.4823739
état	Publié - 14 oct. 2013
Modification externe	Oui

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10.1063/1.4823739

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title = "Spherulitic crystallization in binary thin films under solvent-vapor annealing. I. A sharp-interface theory",

abstract = "We present a thermodynamically consistent theory for solvent-vapor induced spherulitic crystallization in binary thin-film blends, including those which consist of polymeric or organic small-molecule semiconductors. Under the proposed theory, spherulitic growth is interface driven, with no diffusion of any species. The thermodynamic driving force at the interface between the spherulite and amorphous phase is identified, and a kinetic relation that delivers a constant growth rate is proposed.",

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AB - We present a thermodynamically consistent theory for solvent-vapor induced spherulitic crystallization in binary thin-film blends, including those which consist of polymeric or organic small-molecule semiconductors. Under the proposed theory, spherulitic growth is interface driven, with no diffusion of any species. The thermodynamic driving force at the interface between the spherulite and amorphous phase is identified, and a kinetic relation that delivers a constant growth rate is proposed.

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Spherulitic crystallization in binary thin films under solvent-vapor annealing. I. A sharp-interface theory

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