The Impact of Metal Dopants on the Properties of nZVI: A Theoretical Study

J. White, J. Hinsch, William Bennett, Yun Wang
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Abstract

The substitution of Fe with metal dopants shows potential for enhancing the wastewater remediation performance of nanoscale zero-valent iron (nZVI). However, the specific roles and impacts of these dopants remain unclear. To address this knowledge gap, we employed density functional theory (DFT) to investigate metal-doped nZVI on stepped surfaces. Four widely used metal dopants (Ag, Cu, Ni, and Pd) were investigated by replacing Fe atoms at the edge of the stepped surface. Previous research has indicated that these Fe atoms exhibit chemical reactivity and are vulnerable to water oxidation. Our DFT calculations revealed that the replacement of Fe atoms on the edge of the stepped surface is energetically more favorable than that on the flat Fe(110) surface. Our results shed light on the effects of metal dopants on the surface properties of nZVI. Notably, the replacement of Fe atoms with a metal dopant generally led to weaker molecular and dissociated water adsorption across all systems. The results from this study enhance our understanding of the complex interplay between dopants and the surface properties of nZVI, offering theoretical guidance for the development and optimization of metal-doped nZVI for efficient and sustainable wastewater remediation applications.
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金属掺杂物对 nZVI 性能的影响:理论研究
用金属掺杂剂替代铁,显示出提高纳米级零价铁(nZVI)的废水修复性能的潜力。然而,这些掺杂剂的具体作用和影响仍不清楚。为了填补这一知识空白,我们采用密度泛函理论 (DFT) 研究了阶梯表面的金属掺杂 nZVI。通过替换阶梯表面边缘的铁原子,研究了四种广泛使用的金属掺杂剂(银、铜、镍和钯)。以前的研究表明,这些铁原子具有化学反应性,容易被水氧化。我们的 DFT 计算显示,在阶梯表面边缘替换铁原子比在平坦的 Fe(110) 表面替换铁原子在能量上更有利。我们的研究结果阐明了金属掺杂剂对 nZVI 表面性质的影响。值得注意的是,在所有体系中,用金属掺杂剂取代铁原子通常会导致较弱的分子吸附和离解水吸附。这项研究的结果加深了我们对掺杂剂与 nZVI 表面特性之间复杂相互作用的理解,为开发和优化金属掺杂的 nZVI 提供了理论指导,从而实现高效、可持续的废水修复应用。
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