Molecular ferroelectric contributions to anomalous hysteresis in hybrid perovskite solar cells

We report a model describing the molecular orientation disorder in CH3NH3PbI3, solving a classical Hamiltonian parametrised with electronic structure calculations, with the nature of the motions informed by ab initio molecular dynamics. We investigate the temperature and static electric field dependence of the equilibrium ferroelectric (molecular) domain structure and resulting polarisability. A rich domain structure of twinned molecular dipoles is observed, strongly varying as a function of temperature and applied electric field. We propose that the internal electrical fields associated with microscopic polarisation domains contribute to hysteretic anomalies in the current-voltage response of hybrid…

• IC
  Imperial College London
• UO
  University of Bath
• PF
  Partnership for Advanced Computing in Europe AISBL
• EA
  Engineering and Physical Sciences Research Council

  Awards: EP/J017361/1, EP/K016288/1, EP/J017361, EP/K016288/1, EP/J017361/1, EP/F067496/1, EP/F067496, EP/K016288
• ER
  European Research Council

  Award: 277757