Abstract

AbstractDespite garnering so much research interest, the potential technological developments of perovskites are limited due to the instability of perovskites in polar solvents. Here, it is discovered that upon exposure to ethanol, the initial cubic cesium lead bromide nanocrystals (CsPbBr3 NCs) undergo a phase transformation from the cubic phase to the orthorhombic phase. Further exposure of the orthorhombic phase to water leads to the formation of CsPbBr3 perovskite nanoaggregates, which shows higher stability in water compared to pristine CsPbBr3 NCs. A systematic investigation of the interfaces using various spectroscopic techniques demonstrating the self‐assembly process and phase transformation is presented. The increased stability of ethanol‐treated CsPbBr3 NCs is attributed to the ethoxide ions adsorption on the CsPbBr3 interface, owing to strong affinity of alkoxide ions to Pb2+. Effective surface passivation leads to enhanced charge‐carrier separation, a prerequisite to an effective photocatalyst. Ethoxide‐stabilized CsPbBr3 in water is utilized to reduce Au3+ to Au0 to synthesize water‐stable Au‐CsPbBr3 nanocomposites. The formation of hybrid plasmonic metal‐perovskites nanocomposite influences the perovskite's excited state charge carrier dynamics. This opens the possibilities of utilizing the synergistic effects of the light‐harvesting properties of plasmonic nanomaterials with the catalytic attributes of perovskite materials and controlling the interface properties by tuning plasmon–exciton coupling.

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