Near-Infrared Room-Temperature Phosphorescence from Mono-cyclic Luminophores

Compact luminophores with long emission wavelengths have aroused considerable theoretical and practical interest. Organ-ics with room-temperature phosphorescence (RTP) are also desirable for their longer lifetimes and larger Stokes shifts com-pared to fluorescence. Utilizing the low electronic transition energy intrinsic to thiocarbonyl compounds, electron-withdrawing groups were attached to the 4H-pyran-4-thione core to further lower the excited states energies. The resulting mini-phosphors were doped into appropriate polymer matrices. Both pure organic, amorphous materials emitted near-infrared (NIR) RTP. Having a molar mass of only 162 g·mol-1, one of the phosphors emitted RTP that peaked at 750 nm, with a very large Stokes shift of 15485 cm-1 (403 nm). Thanks to the good processability of the polymer film, light-emitting didoes (LEDs) with NIR emission was easily fabricated by coating doped polymer on ultraviolet LEDs. This work provides an interesting strategy to achieve NIR RTP using compact luminophores.