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Contrasting Ultra-Low Frequency Raman and Infrared Modes in Emerging Metal Halides for Photovoltaics. | LitMetric

AI Article Synopsis

  • Lattice dynamics play a crucial role in the performance of photovoltaic materials by influencing factors like disorder, cooling, recombination, and charge transport.
  • The study focuses on soft metal-halide perovskites, which show unique low-frequency Raman spectra, the cause of which has been widely debated.
  • Using advanced spectroscopic techniques, the researchers propose that the central Raman peak arises from a combination of broadening of low-energy phonon modes and Bose-Einstein statistics, enhancing our understanding of how light interacts with these materials in solar energy applications.

Article Abstract

Lattice dynamics are critical to photovoltaic material performance, governing dynamic disorder, hot-carrier cooling, charge-carrier recombination, and transport. Soft metal-halide perovskites exhibit particularly intriguing dynamics, with Raman spectra exhibiting an unusually broad low-frequency response whose origin is still much debated. Here, we utilize ultra-low frequency Raman and infrared terahertz time-domain spectroscopies to provide a systematic examination of the vibrational response for a wide range of metal-halide semiconductors: FAPbI, MAPbI Br , CsPbBr, PbI, CsAgBiBr, CuAgBiI, and AgI. We rule out extrinsic defects, octahedral tilting, cation lone pairs, and "liquid-like" Boson peaks as causes of the debated central Raman peak. Instead, we propose that the central Raman response results from an interplay of the significant broadening of Raman-active, low-energy phonon modes that are strongly amplified by a population component from Bose-Einstein statistics toward low frequency. These findings elucidate the complexities of light interactions with low-energy lattice vibrations in soft metal-halide semiconductors emerging for photovoltaic applications.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11320646PMC
http://dx.doi.org/10.1021/acsenergylett.4c01473DOI Listing

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