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Nonisovalent Si-III-V and Si-II-VI alloys: Covalent, ionic, and mixed phases

Joongoo KangDepartment of Emerging Materials Science, DGIST, Daegu 711-873, KoreaJi‐Sang ParkArgonne National Laboratory, Argonne, Illinois 60439, USAPauls StradinsNational Renewable Energy Laboratory, Golden, Colorado 80401, USASu‐Huai WeiBeijing Computational Science Research Center, Beijing 100094, China
2017en
ABI

Аннотация

Nonequilibrium growth of Si-III-V or Si-II-VI alloys is a promising approach to obtaining optically more active Si-based materials. We propose a new class of nonisovalent $\mathrm{S}{\mathrm{i}}_{2}\mathrm{AlP}$ (or $\mathrm{S}{\mathrm{i}}_{2}\mathrm{ZnS}$) alloys in which the Al-P (or Zn-S) atomic chains are as densely packed as possible in the host Si matrix. As a hybrid of the lattice-matched parent phases, $\mathrm{S}{\mathrm{i}}_{2}\mathrm{AlP}$ (or $\mathrm{S}{\mathrm{i}}_{2}\mathrm{ZnS}$) provides an ideal material system with tunable local chemical orders around Si atoms within the same composition and structural motif. Here, using first-principles hybrid functional calculations, we discuss how the local chemical orders affect the electronic and optical properties of the nonisovalent alloys.

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