The hydration of Li+ and Mg2+ in subnano carbon nanotubes using a multiscale theoretical approach

Liu, Ruirui; Jing, Zhuanfang; Shao, Yifan; Zhou, Yongquan; Zhu, Fayan; Liu, Hongyan

doi:10.3389/fchem.2023.1103792

Front. Chem.

2023

DOI: 10.3389/fchem.2023.1103792

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The hydration of Li+ and Mg2+ in subnano carbon nanotubes using a multiscale theoretical approach

Ruirui Liu

Zhuanfang Jing²,

Yifan Shao³

et al.

Abstract: The separation of brines with high Mg/Li mass ratios is a huge challenge. To provide a theoretical basis for the design of separation materials, the hydration of Li+ and Mg2+ in confinement using carbon nanotubes (CNTs) as the 1-D nanopore model was investigated using a multiscale theoretical approach. According to the analysis of the first coordination layer of cations, we determined that the coordination shells of two cations exist inside CNTs, while the second coordination shells of the cations are unstable… Show more

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2024

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Cited by 3 publications

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Separation Study of Magnesium–Lithium from Low‐Mg/Li Brine

Ma,

Huang,

Liu

et al. 2024

Energy Tech

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The lithium present in salt lakes constitutes a significant and valuable resource. There are various methods for extracting lithium from salt lake brine, but currently, they all face challenges such as high energy consumption and low utilization efficiency of lithium resources. One prominent issue is the composition of feedstock during lithium extraction, specifically determining the optimal concentration ratio (nMg/nLi value). This constitutes a critical aspect in the later stages of the extraction process, influencing the cost and efficiency of lithium extraction processes. The fundamental reason for this prominent issue is the effective control of the evaporation and concentration process of lithium‐containing brines, which is caused by the disconnection between the evaporation process and the subsequent processing and extraction stages. Therefore, considering the concentration variation patterns of Li+ and Mg2+ in brine during the evaporation process, paper employs a combination of experimental research and computational simulation. It investigates the variation of Li‐Mg concentrations and their interactions during the natural evaporation enrichment process. The research investigates changes in lithium and magnesium concentrations and their interactions during natural evaporation enrichment process of salt lake. Elucidates the mechanism of lithium migration and proposes a new lithium extraction process ‐ the ‘3 Steps 2 Units’.

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Separation Study of Magnesium–Lithium from Low‐Mg/Li Brine

Ma,

Huang,

Liu

et al. 2024

Energy Tech

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Mechanisms of Mg2+/Li+ separation regulated by ion dynamics near the entrance of 2D nanochannels under applied electric fields

Zheng,

Liao,

et al. 2024

Chemical Engineering Science

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Deprotonation of formic, acetic acids and bicarbonate ion in slit silica nanopores at infinite dilution and in the presence of electrolytes

Baldo,

Ilgen,

Leung

2024

Journal of Colloid and Interface Science

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The hydration of Li+ and Mg2+ in subnano carbon nanotubes using a multiscale theoretical approach

Cited by 3 publications

References 44 publications

Separation Study of Magnesium–Lithium from Low‐Mg/Li Brine

Separation Study of Magnesium–Lithium from Low‐Mg/Li Brine

Mechanisms of Mg2+/Li+ separation regulated by ion dynamics near the entrance of 2D nanochannels under applied electric fields

Deprotonation of formic, acetic acids and bicarbonate ion in slit silica nanopores at infinite dilution and in the presence of electrolytes

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