A Molecular Dynamics Simulation of the Molten Ternary System (Li, K, Cs)Cl

Matsumiya, Masahiko; Takagi, Ryuzo

doi:10.1515/zna-2000-11-1203

Cited by 10 publications

(2 citation statements)

References 15 publications

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“…The activation energy of electrical conductance of their mixture has a significantly higher value, which indicates the important role of temperature and ionic structures of melt on electrical conductance. According to the molecular dynamics simulation of the molten ternary system (Li, K, Cs) Cl from Matsumiya, when x Cs is lower than 0.4, the self-exchange velocity (SEV) of Cs + is lower than the other two cations in the tested melts. On the other hand, the molar volume of the LiCl–KCl–CsCl melts and the average Cl – –Cl – distance increases with increasing content of CsCl.…”

Section: Resultsmentioning

confidence: 99%

Electrical Conductivity of LiCl–KCl–CsCl Melts

Gao

Chen

et al. 2016

J. Chem. Eng. Data

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Section: Resultsmentioning

confidence: 99%

Electrical Conductivity of LiCl–KCl–CsCl Melts

Gao

Chen

et al. 2016

J. Chem. Eng. Data

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“…This affects significantly the mobility of cations: the mobility of smaller ions decreases significantly and the mobility of larger cations increases. As a result, in a wide concentration range, the mobility of larger ions is even greater than that of smaller cations (Chemla effect). ,,− …”

Section: Discussionmentioning

confidence: 99%

Electrical Conductivity and Molar Volume of (LiCl-KCl)_eut.–CsCl Molten Mixtures

Salyulev

Potapov

2023

J. Chem. Eng. Data

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The electrical conductivity of (LiCl-KCl)eut.–CsCl molten mixtures has been measured over a concentration range of 0–100 mol % CsCl and in a wide temperature span (624–1180 K). The measurements were carried out in quartz cells of the capillary type with platinum electrodes using the AC-bridge method. The molar volume of these mixtures was estimated using similar literature data. The maximum deviations of the molar volume from the additive values are ∼2%. Molar conductivity and its activation energy were calculated using the derived molar volume data. It was found that the electrical conductivity of all melts increases with increasing temperature and decreases with increasing CsCl concentration. In the molten (LiCl-KCl)eut.–CsCl mixtures, the significant negative deviations of the specific and molar electrical conductivities from additive values are observed over the whole concentration range, which indicates that the replacement of one alkaline cation by those, significantly different in size, is accompanied by a noticeable rearrangement of interparticle bonds. Therefore, the complexation in the system becomes different. According to the obtained data on electrical conductivity, the liquidus line of this system was built.

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Electrochemical behavior and dissolution processes of lithium metal in the LiCl–KCl–CsCl molten salt system

Chang,

Zhu,

2024

J Appl Electrochem

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A Molecular Dynamics Simulation of the Molten Ternary System (Li, K, Cs)Cl

Cited by 10 publications

References 15 publications

Electrical Conductivity of LiCl–KCl–CsCl Melts

Electrical Conductivity of LiCl–KCl–CsCl Melts

Electrical Conductivity and Molar Volume of (LiCl-KCl)_eut.–CsCl Molten Mixtures

Electrochemical behavior and dissolution processes of lithium metal in the LiCl–KCl–CsCl molten salt system

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A Molecular Dynamics Simulation of the Molten Ternary System (Li, K, Cs)Cl

Cited by 10 publications

References 15 publications

Electrical Conductivity of LiCl–KCl–CsCl Melts

Electrical Conductivity of LiCl–KCl–CsCl Melts

Electrical Conductivity and Molar Volume of (LiCl-KCl)eut.–CsCl Molten Mixtures

Electrochemical behavior and dissolution processes of lithium metal in the LiCl–KCl–CsCl molten salt system

Contact Info

Product

Resources

About

Electrical Conductivity and Molar Volume of (LiCl-KCl)_eut.–CsCl Molten Mixtures