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Article Abstract
Easily processed metal-free phosphorescent luminophores with a fast rate of phosphorescence are emerging as promising materials for advanced optoelectronics. Alkylation of a modified vitamin B6 vitamer (pyridoxine) affords a family of pyridinium-derived ionic pairs 1-7 exhibiting variable anion-π interactions in the solid state. Such a noncovalent cation-anion network promotes tunable room-temperature phosphorescence (RTP, = 510-565 nm) in crystalline materials stemming from anion(I)-π(pyridinium) charge transfer. Systematic X-ray structural and computational studies manifest the key role of the anion(I)-π(pyridinium) distance in the spin-orbit coupling, hence the observed RTP. For the studied pyridinium salts with RTP, the radiative rate constants ( ) reach up to 0.9-1.3 × 10 s which are competitive with those of many noble metal emitters. Ion pair 2 reached an RTP with a quantum yield of 93% and was successfully demonstrated as an excellent X-ray scintillating dye in neat films. The demonstrated strategy of attaining intense RTP in small metal-free accessible molecules, , atom-photon economy, represents a new twist in designing efficient and sustainable photofunctional molecular materials.
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| http://dx.doi.org/10.1039/d5sc03813h | DOI Listing |
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