Synergistic Enhancement of Lead and Selenate Uptake at the Barite(001)-Water Interface

Peng Yang; Nikhil Rampal; Juliane Weber

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Synergistic Enhancement of Lead and Selenate Uptake at the Barite(001)-Water Interface

机译：Synergistic Enhancement of Lead and Selenate Uptake at the Barite(001)-Water Interface

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The interactions of heavy metals with minerals influence the mobility and bioavailability of toxic elements in natural aqueous environments.The sorption of heavy metals on covalently bonded minerals is generally well described by surface complexation models@CMs).However,understanding sorption on sparingly soluble minerals is challenging because of the dynamically evolving chemistry of sorbent surfaces.The interpretation can be even more complicated when multiple metal ions compete for sorption.In the present study,we observed synergistically enhanced uptake of lead and selenate on the barite(001)surface through two sorption mechanisms:lattice incorporation that dominates at lower coverages and two-dimensional monolayer growth that dominates at higher coverages.We also observed a systematic increase in the sorption affinity with increasing co-sorbed ion coverages,different from the assumption of invariant binding constants for individual adsorption processes in classical SCMs.Computational simulations showed thermodynamically favorable co-incorporation of lead and selenate by simultaneously substituting for barium and sulfate in neighboring sites,resulting in the formation of molecular clusters that locally match the net dimension of the substrate lattice.These results emphasize the importance of ion-ion interactions at mineral-water interfaces that control the fate and transport of contaminants in the environment.

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《Environmental Science & Technology: ES&T》 |2022年第23期|16801-16810|共10页
作者
Peng Yang; Nikhil Rampal; Juliane Weber;
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作者单位

Chemical Sciences and Engineering Division,Argonne National Laboratory,Lemont,Illinois 60439,United States;

Chemical Sciences Division,Oak Ridge National Laboratory,Oak Ridge,Tennessee 37830,United States;

Department of Chemical Engineering,Columbia University,New York,New York 10027,United States;

Chemical Sciences Division,Oak Ridge National Laboratory,Oak Ridge,Tennessee 37830,United States;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种英语
中图分类环境科学、安全科学;
关键词
sorption; incorporation; thin film formation; lead; selenate; barite; fate and transport of contaminants;

Synergistic Enhancement of Lead and Selenate Uptake at the Barite(001)-Water Interface

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