Molecular dynamics simulations of triflic acid and triflate ion/water mixtures: A proton conducting electrolytic component in fuel cells

Triflic acid is a functional group of perflourosulfonated polymer electrolyte membranes where the sulfonate group is responsible for proton conduction. However, even at extremely low hydration, triflic acid exists as a triflate ion. In this work, we have developed a force‐field for triflic acid and...

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Bibliographic Details
Published in:Journal of computational chemistry 2011-11, Vol.32 (15), p.3319-3328
Main Authors: Sunda, Anurag Prakash, Venkatnathan, Arun
Format: Article
Language:English
Subjects:
Analytical chemistry
Diffusion
diffusion coefficient
molecular dynamics
Molecular physics
PEM fuel cells
Protons
radial distribution functions
Simulation
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Summary:Triflic acid is a functional group of perflourosulfonated polymer electrolyte membranes where the sulfonate group is responsible for proton conduction. However, even at extremely low hydration, triflic acid exists as a triflate ion. In this work, we have developed a force‐field for triflic acid and triflate ion by deriving force‐field parameters using ab initio calculations and incorporated these parameters with the Optimized Potentials for Liquid Simulations ‐ All Atom (OPLS‐AA) force‐field. We have employed classical molecular dynamics (MD) simulations with the developed force field to characterize structural and dynamical properties of triflic acid (270–450 K) and triflate ion/water mixtures (300 K). The radial distribution functions (RDFs) show the hydrophobic nature of CF3 group and presence of strong hydrogen bonding in triflic acid and temperature has an insignificant effect. Results from our MD simulations show that the diffusion of triflic acid increases with temperature. The RDFs from triflate ion/water mixtures shows that increasing hydration causes water molecules to orient around the SO3− group of triflate ions, solvate the hydronium ions, and other water molecules. The diffusion of triflate ions, hydronium ion, and water molecules shows an increase with hydration. At λ = 1, the diffusion of triflate ion is 30 times lower than the diffusion of triflic acid due to the formation of stable triflate ion–hydronium ion complex. With increasing hydration, water molecules break the stability of triflate ion–hydronium ion complex leading to enhanced diffusion. The RDFs and diffusion coefficients of triflate ions, hydronium ions and water molecules resemble qualitatively the previous findings using per‐fluorosulfonated membranes. © 2011 Wiley Periodicals, Inc. J Comput Chem, 2011 Molecular Dynamics Simulations of Triflic Acid and Triflate Ion/Water Mixtures: A Proton Conducting Electrolytic Component in Fuel Cells ANURAG PRAKASH SUNDA AND ARUN VENKATNATHAN
ISSN:0192-8651
1096-987X
DOI:10.1002/jcc.21929