液相线
三元运算
卤化物
熔盐
金属卤化物
电解质
金属
液态金属
化学
锂(药物)
无机化学
价电子
金属锂
熔盐反应器
材料科学
电子
物理化学
有机化学
电极
程序设计语言
内分泌学
物理
医学
量子力学
合金
计算机科学
作者
B. Li,Yongquan Guo,Zhenyu Yang,Xinze Wang,Yichen Feng,Wei Tang,Siqi Peng,Tong Su
摘要
). The liquefaction temperatures on various liquidus lines and curves are positively related to the linear density of valence electron pairs on the strong Li-X bond, bonding factor, and number of valence electrons in the s orbital but are negatively related to the number of valence electrons in the p orbital. With an increase in the linear density of the valence electron pair number and bonding factor, bond strength is enhanced, which increases the resistance of the strong Li-X bond against the break force induced by thermal phonon vibrations, and more thermal phonons with high vibrating energy are required for breaking the strongest Li-X bond at a higher temperature; therefore, the liquefaction temperature increases.
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