Photostriction of CH NH PbBr Perovskite Crystals.

Organic-inorganic hybrid perovskite materials exhibit a variety of physical properties. Pronounced coupling between phonon, organic cations, and the inorganic framework suggest that these materials exhibit strong light-matter interactions. The photoinduced strain of CH NH PbBr is investigated using high-resolution and contactless in situ Raman spectroscopy. Under illumination, the material exhibits large blue shifts in its Raman spectra that indicate significant structural deformations (i.e., photostriction). From these shifts, the photostrictive coefficient of CH NH PbBr is calculated as 2.08 × 10 m W at room temperature under visible light illumination. The significant photostriction of CH NH PbBr is attributed to a combination of the photovoltaic effect and translational symmetry loss of the molecular configuration via strong translation-rotation coupling. Unlike CH NH PbI , it is noted that the photostriction of CH NH PbBr is extremely stable, demonstrating no signs of optical decay for at least 30 d. These results suggest the potential of CH NH PbBr for applications in next-generation optical micro-electromechanical devices.