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Effects of Ferroelastic Domain Walls on the Macroscopic Transport and Photoluminescent Properties of Bulk CsPbBr<sub>3</sub> Single Crystals

He Xie, Bangwei Jin, Pingjing Luo, Qi Zhou, Dexin Yang, Xuefeng Zhang

2024ACS Applied Materials & Interfaces12 citationsDOI

Abstract

The all-inorganic halide perovskite CsPbBr 3 has emerged as an excellent class of semiconductive and optoelectronic materials, in which its excellent properties are strongly related to the dynamics of its microstructures, i.e., ferroelastic domain walls. Here, the influence of ferroelastic domain walls on the macroscopic charge transport and photoluminescent properties in bulk single-crystal CsPbBr 3 is experimentally and intrinsically studied across wide temperature intervals. The larger area of the same domain orientation, along with denser and thinner domain walls in a bulk CsPbBr 3 single crystal, is formed through the Pnma ↔ P 4/ mbm ↔ Pm 3̅ m phase transitions. Remarkable motion of the domain walls near the P 4/ mbm ↔ Pm 3̅ m transition point is observed using in situ polarized optical microscopy. We initially observed a sharp decrease in resistivity after inducing larger areas with long-range order and denser, thinner domain walls in the temperature range from 273 to 343 K upon heating. In addition, the ferroelastic domain walls modulate exciton–phonon interactions and enhance radiative recombination in the CsPbBr 3 single crystal, which correlates with the decrease in resistivity. These results will motivate strategies to design high-performance semiconductive and optoelectronic materials or devices by inducing specific ferroelastic domain walls in metal halide perovskites.

Topics & Concepts

Materials sciencePhotoluminescenceSingle crystalCondensed matter physicsDomain (mathematical analysis)Domain wall (magnetism)NanotechnologyCrystallographyOptoelectronicsMagnetizationMathematical analysisPhysicsMagnetic fieldMathematicsChemistryQuantum mechanicsPerovskite Materials and ApplicationsSolid-state spectroscopy and crystallographyOptical properties and cooling technologies in crystalline materials