Thinning CsPb2Br5 Perovskite Down to Monolayers: Cs-dependent Stability
13 September 2017
UAntwerpen, Campus Groenenborger, Room U.247 - Groenenborgerlaan 171 - 2020 Antwerpen (route: UAntwerpen, Campus Groenenborger
4:00 PM - 5:00 PM
Organization / co-organization:
Condensed Matter Theory
Condensed Matter Theory seminar presented by Dr Hasan Sahin from Izmir Institute of Technology
Using first-principles density-functional theory calculations, we systematically investigate the structural, electronic and vibrational properties of bulk and potential single-layer structures of perovskite-like CsPb2Br5 crystal. It is found that while Cs atoms have no effect on the electronic structure, their presence is essential for the formation of stable CsPb2Br5 crystals. Calculated vibrational spectra of the crystal reveal that not only bulk form but also single-layer forms of CsPb2Br5 are dynamically stable. Predicted single-layer forms can exhibit either semiconducting or metallic character. Moreover, modification of the structural, electronic and magnetic properties of single-layer CsPb2Br5 upon formation of vacancy defects is investigated.
It is found that the formation of Br vacancy (i) has the lowest formation energy, (ii) significantly changes the electronic structure, and (iii) leads to ferromagnetic ground state in the single-layer CsPb2Br5. However, the formation of Pb and Cs vacancies leads to p-type doping of the layer. Results reported herein reveal that single-layer CsPb2Br5 crystal is a novel stable perovskite with enhanced functionality and a promising candidate for nanodevice applications.
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