赤铁矿（Fe2O3）-水界面的光活性和动力学性质：一项实验与理论研究。

Photo-active and dynamical properties of hematite (Fe2O3)-water interfaces: an experimental and theoretical study.

作者信息

English Niall J, Rahman Mahfujur, Wadnerkar Nitin, MacElroy J M D

机构信息

The SEC Strategic Research Cluster and the, School of Chemical and Bioprocess Engineering, University College Dublin, Belfield, Dublin 4, Ireland.

出版信息

Phys Chem Chem Phys. 2014 Jul 28;16(28):14445-54. doi: 10.1039/c3cp54700k.

DOI:10.1039/c3cp54700k

PMID:24525830

Abstract

The dynamical properties of physically and chemically adsorbed water molecules at pristine hematite-(001) surfaces have been studied by means of equilibrium Born-Oppenheimer molecular dynamics (BOMD) in the NVT ensemble at 298 K. The dissociation of water molecules to form chemically adsorbed species was scrutinised, in addition to 'hopping' or swapping events of protons between water molecules. Particular foci have been dynamical properties of the adsorbed water molecules and OH(-) and H3O(+) ions, the hydrogen bonds between protons in water molecules and the bridging oxygen atoms at the hematite surface, as well as the interactions between oxygen atoms in adsorbed water molecules and iron atoms at the hematite surface. Experimental results for photoelectrical current generation complement simulation findings of water dissociation.

摘要

通过在298K的NVT系综中进行平衡玻恩-奥本海默分子动力学（BOMD）研究了原始赤铁矿-(001)表面物理吸附和化学吸附水分子的动力学性质。除了水分子之间质子的“跳跃”或交换事件外，还仔细研究了水分子解离形成化学吸附物种的过程。特别关注的是吸附水分子以及OH(-)和H3O(+)离子的动力学性质、水分子中的质子与赤铁矿表面桥连氧原子之间的氢键，以及吸附水分子中的氧原子与赤铁矿表面铁原子之间的相互作用。光电流产生的实验结果补充了水分解的模拟结果。

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赤铁矿（Fe2O3）-水界面的光活性和动力学性质：一项实验与理论研究。

Photo-active and dynamical properties of hematite (Fe2O3)-water interfaces: an experimental and theoretical study.

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