English

Exploring PtSO$_4$ and PdSO$_4$ phases: an evolutionary algorithm based investigation

Materials Science 2015-07-02 v2

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 PdSO4_4, no experimental evidence exits for the PtSO4_4 formation. Given the mystery of nonexistence of the PtSO4_4, we explore the PtSO4_4 using a combined approach of evolutionary algorithm based search technique and quantum mechanical computations. Experimentally known PdSO4_4 is considered for the comparison and validation of our results. We predict many possible low-energy phases of the PtSO4_4 and PdSO4_4 at 0K, which are further investigated under wide range of temperature-pressure conditions. An entirely new low-energy (tetragonal P42/mP4_2/m) structure of the PtSO4_4 and PdSO4_4 is predicted, which appears to be the most stable phase of the PtSO4_4 and a competing phase of the experimentally known monoclinic C2/cC_2/c phase of PdSO4_4. 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 PtSO4_4 and PdSO4_4.

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}
}
R2 v1 2026-06-22T08:48:18.724Z