Proton transfer through hydrogen bonds in two-dimensional water layers: a theoretical study based on ab initio and quantum-classical simulations
Autor: | Arindam Bankura, Amalendu Chandra |
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Rok vydání: | 2015 |
Předmět: |
Hydrogen
Hydrogen bond Chemistry Inorganic chemistry Molecular Conformation General Physics and Astronomy chemistry.chemical_element Water Hydrogen Bonding Hydrogen atom Molecular Dynamics Simulation Photochemistry Diffusion chemistry.chemical_compound Onium Compounds Chemical bond Hydroxides Solvents Molecule Hydroxide Quantum Theory Grotthuss mechanism Physical and Theoretical Chemistry Protons Self-ionization of water |
Zdroj: | The Journal of chemical physics. 142(4) |
ISSN: | 1089-7690 |
Popis: | The dynamics of proton transfer (PT) through hydrogen bonds in a two-dimensional water layer confined between two graphene sheets at room temperature are investigated through ab initio and quantum-classical simulations. The excess proton is found to be mostly solvated as an Eigen cation where the hydronium ion donates three hydrogen bonds to the neighboring water molecules. In the solvation shell of the hydronium ion, the three coordinated water molecules with two donor hydrogen bonds are found to be properly presolvated to accept a proton. Although no hydrogen bond needs to be broken for transfer of a proton to such presolvated water molecules from the hydronium ion, the PT rate is still found to be not as fast as it is for one-dimensional chains. Here, the PT is slowed down as the probability of finding a water with two donor hydrogen bonds in the solvation shell of the hydronium ion is found to be only 25%-30%. The hydroxide ion is found to be solvated mainly as a complex anion where it accepts four H-bonds through its oxygen atom and the hydrogen atom of the hydroxide ion remains free all the time. Here, the presolvation of the hydroxide ion to accept a proton requires that one of its hydrogen bonds is broken and the proton comes from a neighboring water molecule with two acceptor and one donor hydrogen bonds. The coordination number reduction by breaking of a hydrogen bond is a slow process, and also the population of water molecules with two acceptor and one donor hydrogen bonds is only 20%-25% of the total number of water molecules. All these factors together tend to slow down the hydroxide ion migration rate in two-dimensional water layers compared to that in three-dimensional bulk water. |
Databáze: | OpenAIRE |
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