Exploring PtSO$_4$ and PdSO$_4$ phases: an evolutionary algorithm based investigation
Abstract
Metal sulfate formation is one of the major challenges to the emissions aftertreatment catalysts. Unlike the incredibly sulfation prone nature of Pd to form PdSO, no experimental evidence exits for the PtSO formation. Given the mystery of nonexistence of the PtSO, we explore the PtSO using a combined approach of evolutionary algorithm based search technique and quantum mechanical computations. Experimentally known PdSO is considered for the comparison and validation of our results. We predict many possible low-energy phases of the PtSO and PdSO at 0K, which are further investigated under wide range of temperature-pressure conditions. An entirely new low-energy (tetragonal ) structure of the PtSO and PdSO is predicted, which appears to be the most stable phase of the PtSO and a competing phase of the experimentally known monoclinic phase of PdSO. Phase stability at finite temperature is further examined and verified by free energy calculations of sulfates towards their possible decomposition products. Finally, temperature-pressure phase diagrams are computationally established for both PtSO and PdSO.
Keywords
Cite
@article{arxiv.1503.02752,
title = {Exploring PtSO$_4$ and PdSO$_4$ phases: an evolutionary algorithm based investigation},
author = {Hom Sharma and Vinit Sharma and Tran Doan Huan},
journal= {arXiv preprint arXiv:1503.02752},
year = {2015}
}