Revealing a Discontinuity in the Degradation Behavior of CH3NH3PbI3 during Thermal Operation

The advance of innovative photovoltaics based on hybrid perovsldtes is currently forced to face their stability and durability through the rationalization of the phenomena occurring into the lattice under conditions which mimic the material operation. In this framework, we study the structural modifications of MAPbI(3) layers by in situ structural and optical analyses upon recursive thermal cycles, from 30 to 80 degrees C in different annealing,environments. We reveal an acceleration of the material modification, above what expeCted, as the threshold of the tetragonal to,cubic transition r(similar to 50 degrees C) is surpassed. This produces discontinuities in the degradation rate, bandgap value, and dielectric behavioi of the MAPbI(3) layer. The phenomenon is put in relationship with the order- disorder lattice modifications described by Car-Parrinello molecular dynamics calculations and reveals that the action of species from humid air becomes largely more-effective above 50 degrees C for reasons related to the increased accessibility/reactivity of the lattice which, in turn, impacts on defects generation.