Surface complexation of rare earth elements on goethite in sea-floor hydrothermal environment: Insight from first principles simulations

IF 4.5 1区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
Yingchun Zhang, Xiandong Liu, Xiancai Lu, Rucheng Wang
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引用次数: 0

Abstract

Deep-sea mud shows tremendous resource potential for rare earth elements (REEs) and its formation is closely associated with sea-floor hydrothermal activities. Iron (oxyhydr)oxides link the sources and sinks of REEs in sea-floor hydrothermal systems. However, the complexation mechanisms of REEs on iron (oxyhydr)oxides have not been well understood yet. In this study, by using the first principles molecular dynamics technique, we first calculated the pKa’s of surface groups on goethite (1 1 0) surface at elevated temperatures relevant to sea-floor hydrothermal systems and then evaluated the complexation structures and free energies of REEs on goethite (1 1 0) and (0 1 0) surfaces using the method of constraint by taking Sc3+, Y3+, and La3+ as model REE cations. The results show that REE complexation occurs in mildly acidic to neutral conditions. The most thermodynamically stable complexes of REEs are bidentate complexes on two neighboring FeOH sites on goethite (1 1 0) surface and tridentate complexes on two neighboring FeOH sites plus one Fe2OH site on goethite (0 1 0) surface. Sc3+ complexes match the goethite lattice and can be incorporated into the lattice. The stabilities of REE complexes increase with the distance from hydrothermal vents. Complexation of Y3+ is less favored on goethite compared to other REEs whereas Sc3+ prefers complexation on goethite (0 1 0) surface and La3+ exhibits similar stabilities on both (0 1 0) and (1 1 0) surfaces. The derived atomic level complexation mechanisms would be helpful for the interpretation of experimental data and the prediction of REEs’ behavior in the sea-floor. The findings presented here provide valuable insights into REEs fractionation and enrichment in deep-sea muds.
海底热液环境中稀土元素在鹅绿泥石上的表面复合:第一原理模拟的启示
深海泥显示出巨大的稀土元素(REEs)资源潜力,其形成与海底热液活动密切相关。铁(氧氢)氧化物连接着海底热液系统中稀土元素的源和汇。然而,REEs 在铁(氧水)氧化物上的络合机制尚未得到很好的理解。在本研究中,我们利用第一性原理分子动力学技术,首先计算了在与海底热液系统相关的高温条件下鹅卵石(1 1 0)表面基团的 pKa,然后以 Sc3+、Y3+ 和 La3+ 为模型 REE 阳离子,利用约束法评估了 REE 在鹅卵石(1 1 0)和(0 1 0)表面的络合结构和自由能。结果表明,REE 在弱酸性至中性条件下发生络合。热力学上最稳定的 REE 复合物是鹅绿泥石(1 1 0)表面上两个相邻 FeOH 位点上的双齿复合物,以及鹅绿泥石(0 1 0)表面上两个相邻 FeOH 位点加一个 Fe2OH 位点上的三齿复合物。Sc3+ 复合物与鹅绿泥石的晶格相匹配,并能与晶格结合。REE 复合物的稳定性随着与热液喷口的距离增加而增加。与其他 REE 相比,Y3+ 在鹅绿泥石上的络合度较低,而 Sc3+ 则更喜欢在鹅绿泥石(0 1 0)表面上络合,La3+ 在(0 1 0)和(1 1 0)表面上的络合度相似。得出的原子级络合机制将有助于解释实验数据和预测 REEs 在海底的行为。本文的研究结果为深海泥浆中 REEs 的分馏和富集提供了宝贵的见解。
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来源期刊
Geochimica et Cosmochimica Acta
Geochimica et Cosmochimica Acta 地学-地球化学与地球物理
CiteScore
9.60
自引率
14.00%
发文量
437
审稿时长
6 months
期刊介绍: Geochimica et Cosmochimica Acta publishes research papers in a wide range of subjects in terrestrial geochemistry, meteoritics, and planetary geochemistry. The scope of the journal includes: 1). Physical chemistry of gases, aqueous solutions, glasses, and crystalline solids 2). Igneous and metamorphic petrology 3). Chemical processes in the atmosphere, hydrosphere, biosphere, and lithosphere of the Earth 4). Organic geochemistry 5). Isotope geochemistry 6). Meteoritics and meteorite impacts 7). Lunar science; and 8). Planetary geochemistry.
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