Charge transfer electrostatic model of compositional order in perovskite alloys
Abstract
We introduce an electrostatic model including charge transfer, which is shown to account for the observed B-site ordering in Pb-based perovskite alloys. The model allows charge transfer between A-sites and is a generalization of Bellaiche and Vanderbilt's purely electrostatic model. The large covalency of Pb2+ compared to Ba2+ is modeled by an environment dependent effective A-site charge. Monte Carlo simulations of this model successfully reproduce the long range compositional order of both Pb-based and Ba-based complex A(BB'B'')O3 perovskite alloys. The models are also extended to study systems with A-site and B-site doping, such as (Na1/2La1/2)(Mg1/3Nb2/3)O3, (Ba1-xLax)(Mg(1+x)/3Nb(2-x)/3)O3 and (Pb1-xLax)(Mg(1+x)/3Ta(2-x)/3)O3. General trends are reproduced by purely electrostatic interactions, and charge transfer effects indicate that local structural relaxations can tip the balance between different B-site orderings in Pb based materials.
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