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To systematize the wurtzite (W) versus zinc blende (ZB) structural preferences among the binary octet compounds, we have calculated the correponding energy difference Eₖ-ₙ₁^LDF (AB) for thirteen AB compounds using the local-density formalism (LDF). We then uncovered a linear scaling betwteen Eₖ-ₙ₁^LDF and an atomistic orbital-radii coordinate R \~ (A, B) that can be simply calculated from the properties of the free A and B atoms. This permits predictions of W-ZB energy differences for all binary compounds and exposes simple chemical trends, including the stabilization of the ZB form in the sequence B=O for A^IIB^VI and A=Ga for A^IIIB^V's. We propose new structural assignments for the low-temperature ground state of CdSe (ZB) and MgTe (NiAs type).
Yeh et al. (Fri,) studied this question.