Carrier transportation in polycrystalline CuInSe_2 thin films with Cu-deficient grain boundaries 被引量：3

Carrier transportation in polycrystalline CuInSe_2 thin films with Cu-deficient grain boundaries

导出

摘要 The interface energies and electronic structures of(112) grain boundaries of Cu In Se2 thin films were investigated by first-principle calculations.It is found that the grain boundary with a Cu vacancy has low interface energy and exists widely in the films.The Cu deficiency may cause the charge imbalance and result in an upward band bending at the grain boundary.It also weakens the repulsion between Cu-3d orbital and Se-4p orbital and leads to the downward shift of valence band maximum.The two mechanisms,namely the band bending from the charge imbalance and the depression of the valence band maximum, have effects on the(112) grain boundaries with different defects.The change of band structure forms a potential barrier to prevent electrons or holes from approaching the grain boundary and reduces their recombination.This might be used to explain the effects of the grain boundary on carrier transportation and why polycrystalline Cu(In,Ga)Se2thin film solar cells have better performance than single-crystal cells. The interface energies and electronic structures of(112) grain boundaries of Cu In Se2 thin films were investigated by first-principle calculations.It is found that the grain boundary with a Cu vacancy has low interface energy and exists widely in the films.The Cu deficiency may cause the charge imbalance and result in an upward band bending at the grain boundary.It also weakens the repulsion between Cu-3d orbital and Se-4p orbital and leads to the downward shift of valence band maximum.The two mechanisms,namely the band bending from the charge imbalance and the depression of the valence band maximum, have effects on the(112) grain boundaries with different defects.The change of band structure forms a potential barrier to prevent electrons or holes from approaching the grain boundary and reduces their recombination.This might be used to explain the effects of the grain boundary on carrier transportation and why polycrystalline Cu(In,Ga)Se2thin film solar cells have better performance than single-crystal cells.

作者 Bo Yin Chao-Gang Lou

机构地区 School of Electronic Science and Engineering

出处《Rare Metals》 SCIE EI CAS CSCD 2015年第7期510-516,共7页 稀有金属（英文版）

基金 financially supported by the Natural Science Foundation of Jiangsu (No. BK2011033)

关键词 First principle CUINSE2 Grain boundary Interface e First principle CuInSe2 Grain boundary Interface e

分类号 TB383.2 [一般工业技术—材料科学与工程]

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