Molecular Dynamics Shows That Ion Pairing and Counterion Anchoring Control the Properties of Triflate Micelles: A Comparison with Triflate at the Air/Water Interface

Lima, Filipe S. and Chaimovich, Hernan and Cuccovia, Iolanda M. and Horinek, Dominik (2014) Molecular Dynamics Shows That Ion Pairing and Counterion Anchoring Control the Properties of Triflate Micelles: A Comparison with Triflate at the Air/Water Interface. LANGMUIR, 30 (5). pp. 1239-1249. ISSN 0743-7463,

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Abstract

Micellar properties of dodecyltrimethylammonium triflate (DTA-triflate, DTATf) are very different from those of DTA-bromide (DTAB). DTATf aggregates show high aggregation numbers (N-agg), low degree of counterion dissociation (alpha), disk-like shape, high packing, ordering, and low hydration. These micellar properties and the low surface tension of NaTf aqueous solutions point to a high affinity of Tf- to the micellar and air/water interfaces. Although the micellar properties of DTATf are well defined, the source of the Tf- effect upon the DTA aggregates is unclear. Molecular dynamics (MD) simulations of Tf- (and Br-) at the air/water interface and as counterion of a DTA aggregate were performed to clarify the nature of Tf- preferences for these interfaces. The effect of NaTf or NaBr on surface tension calculated from MD simulations agreed with the reported experimental values. From the MD simulations a high affinity of Tf- toward the interface, which occurred in a specific orientation, was calculated. The micellar properties calculated from the MD simulations for DTATf and DTAB were consistent with experimental data: in MD simulations, the DTATf aggregate was more ordered, packed, and dehydrated than the DTAB aggregate. The Tf-/alkyltrimethylammonium interaction energies, calculated from the MD simulations, suggested ion pair formation at the micellar interface, stabilized by the preferential orientation of the adsorbed Tf- at the micellar interface.

Item Type: Article
Uncontrolled Keywords: CATIONIC MICELLES; CETYLTRIMETHYLAMMONIUM BROMIDE; SURFACTANT SOLUTIONS; COMPUTER-SIMULATION; AQUEOUS-SOLUTIONS; FORCE-FIELD; HYDRATION; BINDING; SODIUM; MODEL;
Subjects: 500 Science > 540 Chemistry & allied sciences
Divisions: Chemistry and Pharmacy > Institut für Physikalische und Theoretische Chemie
Depositing User: Dr. Gernot Deinzer
Date Deposited: 26 Nov 2019 15:09
Last Modified: 26 Nov 2019 15:09
URI: https://pred.uni-regensburg.de/id/eprint/10677

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