Formation energies of lithium intercalations in AlSb, GaSb and InSb

PhysChemComm Pub Date : 2003-07-04 DOI:10.1039/B304985J
Hou Zhufeng, Zhu Zi-zhong, Huang Mei-chun, Yang Yong
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引用次数: 5

Abstract

By using the ab initio norm-conserving pseudopotential method, the lithium intercalations in AlSb, GaSb and InSb have been studied. The formation energies, changes of volumes, electronic structures and charge densities of the lithium interactions in zinc blende-type antimonides LixMSb (M = Al, Ga, In) are presented. Our calculations show that during lithium insertion in MSb the lithium intercalation formation energy per lithium atom are all around 2.0 eV. The volume expansions of AlSb, GaSb and InSb due to lithium insertions are relatively large, which might imply that the limit of Li intercalation in antimonides should be small.
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锂在AlSb、GaSb和InSb中插层的形成能
采用从头算规范守恒赝势方法,研究了锂在AlSb、GaSb和InSb中的插层。研究了混锌型锑化物LixMSb (M = Al, Ga, in)中锂相互作用的形成能、体积变化、电子结构和电荷密度。我们的计算表明,锂在MSb中插入时,每个锂原子的锂插入形成能都在2.0 eV左右。由于锂的插入,AlSb、GaSb和InSb的体积膨胀相对较大,这可能意味着Li在锑化物中的插入限制应该很小。
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PhysChemComm
PhysChemComm
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