Electrical mobilities of multiply charged ionic-liquid nanodrops in air and carbon dioxide over a wide temperature range: influence of ion-induced dipole interactions

Abstract

Polarization correction enables inferring true cross-sections of globular ions from electrical mobility measurements performed in air and carbon dioxide over a wide temperature range (20–100 °C).

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Document Type: Pub Defense Publication
Publication Date: Jan 01, 2014
Source ID: 10.1039/c4cp02850c

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Juan Fernandez De La Mora
Juan Fernández-garcía

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Air Force Office of Scientific Research
Defense Advanced Research Projects Agency
Yale University

Electrical mobilities of multiply charged ionic-liquid nanodrops in air and carbon dioxide over a wide temperature range: influence of ion-induced dipole interactions

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