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Literature DB >> 17930688

Connecting solvation shell structure to proton transport kinetics in hydrogen-bonded networks via population correlation functions.

Amalendu Chandra¹, Mark E Tuckerman, Dominik Marx.

Abstract

A theory based on population correlation functions is introduced for connecting solvation topologies and microscopic mechanisms to transport kinetics of charge defects in hydrogen-bonded networks. The theory is tested on the hydrated proton by extracting a comprehensive set of relaxation times, lifetimes, and rates from ab initio molecular dynamics simulations and comparing to recent femtosecond experiments. When applied to the controversial case of the hydrated hydroxide ion, the theory predicts that only one out of three proposed transport models is consistent with known experimental data.

Entities: Chemical

Year: 2007 PMID： 17930688 DOI： 10.1103/PhysRevLett.99.145901

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

6 in total

1. Observation of a Zundel-like transition state during proton transfer in aqueous hydroxide solutions.

Authors: Sean T Roberts; Poul B Petersen; Krupa Ramasesha; Andrei Tokmakoff; Ivan S Ufimtsev; Todd J Martinez
Journal: Proc Natl Acad Sci U S A Date: 2009-07-31 Impact factor: 11.205

2. Understanding and Tracking the Excess Proton in Ab Initio Simulations; Insights from IR Spectra.

Authors: Chenghan Li; Jessica M J Swanson
Journal: J Phys Chem B Date: 2020-06-24 Impact factor: 2.991

3. Large-scale atomistic and quantum-mechanical simulations of a Nafion membrane: Morphology, proton solvation and charge transport.

Authors: Pavel V Komarov; Pavel G Khalatur; Alexei R Khokhlov
Journal: Beilstein J Nanotechnol Date: 2013-09-26 Impact factor: 3.649

Connecting solvation shell structure to proton transport kinetics in hydrogen-bonded networks via population correlation functions.

1. Observation of a Zundel-like transition state during proton transfer in aqueous hydroxide solutions.

2. Understanding and Tracking the Excess Proton in Ab Initio Simulations; Insights from IR Spectra.

3. Large-scale atomistic and quantum-mechanical simulations of a Nafion membrane: Morphology, proton solvation and charge transport.

4. On the complex structural diffusion of proton holes in nanoconfined alkaline solutions within slit pores.

5. Correlated dynamics in aqueous proton diffusion.

6. OH^- and H₃O⁺ Diffusion in Model AEMs and PEMs at Low Hydration: Insights from Ab Initio Molecular Dynamics.

Connecting solvation shell structure to proton transport kinetics in hydrogen-bonded networks via population correlation functions.

1. Observation of a Zundel-like transition state during proton transfer in aqueous hydroxide solutions.

2. Understanding and Tracking the Excess Proton in Ab Initio Simulations; Insights from IR Spectra.

3. Large-scale atomistic and quantum-mechanical simulations of a Nafion membrane: Morphology, proton solvation and charge transport.

4. On the complex structural diffusion of proton holes in nanoconfined alkaline solutions within slit pores.

5. Correlated dynamics in aqueous proton diffusion.

6. OH- and H3O+ Diffusion in Model AEMs and PEMs at Low Hydration: Insights from Ab Initio Molecular Dynamics.

6. OH^- and H₃O⁺ Diffusion in Model AEMs and PEMs at Low Hydration: Insights from Ab Initio Molecular Dynamics.