Small Science (Aug 2024)

Piezochromic Behavior of 2,4,6‐Triphenylpyrylium Tetrachloroferrate

  • Princess Canasa,
  • David King,
  • Petrika Cifligu,
  • Adrian F. Lua Sanchez,
  • Si L. Chen,
  • Haesook Han,
  • Trimaan Malik,
  • Brant Billinghurst,
  • Jianbao Zhao,
  • Changyong Park,
  • George R. Rossman,
  • Michael Pravica,
  • Pradip K. Bhowmik,
  • Egor Evlyukhin

DOI
https://doi.org/10.1002/smsc.202400106
Journal volume & issue
Vol. 4, no. 8
pp. n/a – n/a

Abstract

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In advanced photonics, there is a growing interest in piezochromic luminescent materials that exhibit multicolor switching, driven by their potential applications in optical recording, memory, and sensors. Here, the piezochromic behavior of 2,4,6‐triphenylpyrylium tetrachloroferrate (Py‐FeCl4) under high pressures from 0 to 9 GPa is reported. The observed multicolor changing properties of Py‐FeCl4 (yellow–orange–red–maroon–black) are found to be fully reversible upon decompression to ambient conditions. The mechanism of Py‐FeCl4 piezochromism is investigated via Raman, infrared, and UV–vis spectroscopy combined with powder X‐ray Diffraction. The absence of structural phase transitions as well as the abrupt shifts of bandgap values together with characteristic Raman and IR peaks within 0‐9 GPa suggests that the Py‐FeCl4 multicoloring switching behavior is driven by an electron transfer between the inorganic FeCl4− anion and the organic pyrylium cation. The obtained results demonstrate that Py‐FeCl4 dye is a good candidate for developing high‐pressure sensing technologies designed to function in extreme environments. Moreover, due to the inherent role of molecular‐structure relationships in the pyrylium salt's photophysical properties, findings suggest the potential discovery of piezochromic behavior in other pyrylium compounds.

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