First principles molecular dynamics study of proton dynamics and transport in phosphoric acid/imidazole (2:1) system

Phosphoric acid based polymer electrolyte membranes (e.g. poly(benzimidazole)/phosphoric acid) are the only quasi-anhydrous separator electrolytes for medium temperature fuel cells currently in use. Pure phosphoric acid has the highest known intrinsic proton conductivity of any substance, which is v...

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Published inSolid state ionics Vol. 252; pp. 34 - 39
Main Authors Vilčiauskas, Linas, Tuckerman, Mark E., Melchior, Jan P., Bester, Gabriel, Kreuer, Klaus-Dieter
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.12.2013
Subjects
Ab initio molecular dynamics
Dynamic tests
Dynamical systems
Dynamics
Electrolytes
Imidazole
Molecular dynamics
PEM fuel cells
Phosphoric acid
Poly(benzimidazole)/H3PO4
Proton conduction
Poly(benzimidazole)/H3PO4
Ab initio molecular dynamics
Phosphoric acid
PEM fuel cells
Proton conduction
Imidazole
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Abstract Phosphoric acid based polymer electrolyte membranes (e.g. poly(benzimidazole)/phosphoric acid) are the only quasi-anhydrous separator electrolytes for medium temperature fuel cells currently in use. Pure phosphoric acid has the highest known intrinsic proton conductivity of any substance, which is very sensitive towards doping with Brønsted–Lowry bases or even acids. Proton conductivity shows the most dramatic decrease upon addition of basic species, e.g. polymers containing N-heterocyclic groups, and high phosphoric acid contents, are required to ensure high conductivities in these materials. We perform first principles molecular dynamics simulations in order to investigate these processes at the fundamental molecular level. Proton dynamics and transport are studied in a system of phosphoric acid and imidazole having 2:1 molar ratio. This model system represents a first step towards the more detailed understanding of the proton conduction mechanisms in realistic phosphoric acid based polymer electrolyte materials. Our results indicate that imidazole molecules have a much stronger proton affinity (basicity) than phosphoric acid, forming very stable imidazolium–dihydrogenphosphate complexes. We evaluate a number of properties which are important for the proton conduction and compare them to the previously obtained data on pure phosphoric acid. The reduced proton density in the proton conducting H3PO4 phase is shown to have strong effects on the energetics of proton transfer, local proton dynamics, electrostatic proton–proton interactions as well as on the structure of the hydrogen bond network. These effects are suggested to be the reason for the impaired proton conducting properties of this, and similar, phosphoric acid based systems containing N-heterocycles. •We study the proton conduction mechanism in a phosphoric acid and imidazole mixture.•The system was modeled using Car–Parrinello Molecular Dynamics Simulations.•Proton transfer leads to the formation of stable ImiH+[H2PO4−] complexes.•Reduction in proton density and degree of H-bond network frustration.•The results explain the reduced proton conductivity in N-heterocycle doped H3PO4.
AbstractList Phosphoric acid based polymer electrolyte membranes (e.g. poly(benzimidazole)/phosphoric acid) are the only quasi-anhydrous separator electrolytes for medium temperature fuel cells currently in use. Pure phosphoric acid has the highest known intrinsic proton conductivity of any substance, which is very sensitive towards doping with Bronsted-Lowry bases or even acids. Proton conductivity shows the most dramatic decrease upon addition of basic species, e.g. polymers containing N-heterocydic groups, and high phosphoric acid contents, are required to ensure high conductivities in these materials. We perform first principles molecular dynamics simulations in order to investigate these processes at the fundamental molecular level. Proton dynamics and transport are studied in a system of phosphoric acid and imidazole having 2:1 molar ratio. This model system represents a first step towards the more detailed understanding of the proton conduction mechanisms in realistic phosphoric acid based polymer electrolyte materials. Our results indicate that imidazole molecules have a much stronger proton affinity (basicity) than phosphoric acid, forming very stable imidazolium-dihydrogenphosphate complexes. We evaluate a number of properties which are important for the proton conduction and compare them to the previously obtained data on pure phosphoric acid. The reduced proton density in the proton conducting H sub(3)PO sub(4) phase is shown to have strong effects on the energetics of proton transfer, local proton dynamics, electrostatic proton-proton interactions as well as on the structure of the hydrogen bond network. These effects are suggested to be the reason for the impaired proton conducting properties of this, and similar, phosphoric acid based systems containing N-heterocydes.
Phosphoric acid based polymer electrolyte membranes (e.g. poly(benzimidazole)/phosphoric acid) are the only quasi-anhydrous separator electrolytes for medium temperature fuel cells currently in use. Pure phosphoric acid has the highest known intrinsic proton conductivity of any substance, which is very sensitive towards doping with Broensted-Lowry bases or even acids. Proton conductivity shows the most dramatic decrease upon addition of basic species, e.g. polymers containing N-heterocyclic groups, and high phosphoric acid contents, are required to ensure high conductivities in these materials. We perform first principles molecular dynamics simulations in order to investigate these processes at the fundamental molecular level. Proton dynamics and transport are studied in a system of phosphoric acid and imidazole having 2:1 molar ratio. This model system represents a first step towards the more detailed understanding of the proton conduction mechanisms in realistic phosphoric acid based polymer electrolyte materials. Our results indicate that imidazole molecules have a much stronger proton affinity (basicity) than phosphoric acid, forming very stable imidazolium-dihydrogenphosphate complexes. We evaluate a number of properties which are important for the proton conduction and compare them to the previously obtained data on pure phosphoric acid. The reduced proton density in the proton conducting H3PO4 phase is shown to have strong effects on the energetics of proton transfer, local proton dynamics, electrostatic proton-proton interactions as well as on the structure of the hydrogen bond network. These effects are suggested to be the reason for the impaired proton conducting properties of this, and similar, phosphoric acid based systems containing N-heterocycles.
Phosphoric acid based polymer electrolyte membranes (e.g. poly(benzimidazole)/phosphoric acid) are the only quasi-anhydrous separator electrolytes for medium temperature fuel cells currently in use. Pure phosphoric acid has the highest known intrinsic proton conductivity of any substance, which is very sensitive towards doping with Brønsted–Lowry bases or even acids. Proton conductivity shows the most dramatic decrease upon addition of basic species, e.g. polymers containing N-heterocyclic groups, and high phosphoric acid contents, are required to ensure high conductivities in these materials. We perform first principles molecular dynamics simulations in order to investigate these processes at the fundamental molecular level. Proton dynamics and transport are studied in a system of phosphoric acid and imidazole having 2:1 molar ratio. This model system represents a first step towards the more detailed understanding of the proton conduction mechanisms in realistic phosphoric acid based polymer electrolyte materials. Our results indicate that imidazole molecules have a much stronger proton affinity (basicity) than phosphoric acid, forming very stable imidazolium–dihydrogenphosphate complexes. We evaluate a number of properties which are important for the proton conduction and compare them to the previously obtained data on pure phosphoric acid. The reduced proton density in the proton conducting H3PO4 phase is shown to have strong effects on the energetics of proton transfer, local proton dynamics, electrostatic proton–proton interactions as well as on the structure of the hydrogen bond network. These effects are suggested to be the reason for the impaired proton conducting properties of this, and similar, phosphoric acid based systems containing N-heterocycles. •We study the proton conduction mechanism in a phosphoric acid and imidazole mixture.•The system was modeled using Car–Parrinello Molecular Dynamics Simulations.•Proton transfer leads to the formation of stable ImiH+[H2PO4−] complexes.•Reduction in proton density and degree of H-bond network frustration.•The results explain the reduced proton conductivity in N-heterocycle doped H3PO4.
Author Vilčiauskas, Linas
Tuckerman, Mark E.
Melchior, Jan P.
Kreuer, Klaus-Dieter
Bester, Gabriel
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  givenname: Mark E.
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  givenname: Gabriel
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  surname: Kreuer
  fullname: Kreuer, Klaus-Dieter
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  organization: Max-Planck-Institut für Festkörperforschung, Heisenbergstrasse 1, D-70569 Stuttgart, Germany
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Keywords Poly(benzimidazole)/H3PO4
Ab initio molecular dynamics
Phosphoric acid
PEM fuel cells
Proton conduction
Imidazole
Language English
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Snippet Phosphoric acid based polymer electrolyte membranes (e.g. poly(benzimidazole)/phosphoric acid) are the only quasi-anhydrous separator electrolytes for medium...
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SubjectTerms Ab initio molecular dynamics
Dynamic tests
Dynamical systems
Dynamics
Electrolytes
Imidazole
Molecular dynamics
PEM fuel cells
Phosphoric acid
Poly(benzimidazole)/H3PO4
Proton conduction
Title First principles molecular dynamics study of proton dynamics and transport in phosphoric acid/imidazole (2:1) system
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