Arsenic Adsorption onto Minerals: Connecting Experimental Observations with Density Functional Theory Calculations

Heath D. Watts; James D. Kubicki; Lorena Tribe

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Arsenic Adsorption onto Minerals: Connecting Experimental Observations with Density Functional Theory Calculations

机译：砷吸附到矿物上：将实验观察与密度泛函理论计算联系起来

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A review of the literature about calculating the adsorption properties of arsenic onto mineral models using density functional theory (DFT) is presented. Furthermore, this work presents DFT results that show the effect of model charge, hydration, oxidation state, and DFT method on the structures and adsorption energies for AsIII and AsV onto Fe3+-(oxyhydr)oxide cluster models. Calculated interatomic distances from periodic planewave and cluster-model DFT are compared with experimental data for AsIII and AsV adsorbed to Fe3+-(oxyhydr)oxide models. In addition, reaction rates for the adsorption of AsV on α-FeOOH (goethite) (010) and Fe3+ (oxyhydr)oxide cluster models were calculated using planewave and cluster-model DFT methods.

机译：介绍了有关使用密度泛函理论（DFT）计算砷在矿物模型上的吸附特性的文献的综述。此外，这项工作还提供了DFT结果，该结果表明了模型电荷，水合，氧化态和DFT方法对As III 和As V 吸附到其上的结构和吸附能的影响。 Fe 3 + -（羟基）氧化物簇模型。将计算得到的周期平面波和簇模型DFT之间的原子间距离与吸附在Fe 3 + -（上的As III 和As V 的实验数据进行比较。羟基氧化物模型。此外，使用平面波和反演计算了As V 在α-FeOOH（针铁矿）（010）和Fe 3 + （羟基）氧化物簇模型上的吸附反应速率。集群模型DFT方法。

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《Minerals》 |2014年第2期|共33页
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Heath D. Watts; James D. Kubicki; Lorena Tribe;
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Arsenic Adsorption onto Minerals: Connecting Experimental Observations with Density Functional Theory Calculations

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