Highly-efficient red-to-yellow/green upconversion sensitized by phthalocyanine palladium with high triplet energy-level.
Kai WangSuqin HuangPing DingZuoqin LiangShuoran ChenLin LiChangqing YeXiao-Mei WangPublished in: RSC advances (2021)
Soluble 3,7,11,15-tetra( tert -butyl)phthalocyanine palladium (TBPcPd) and 3,7,11,15-tetra(pentyloxy)phthalocyanine palladium (POPcPd) were synthesized and employed as sensitizers in expectation of achieving red-to-yellow/green upconversion (UC), doped with rubrene (Rub) and 9,10-bis(phenylethynyl)anthracene (BPEA), respectively. Under excitation of a 655 nm diode laser (∼1.5 W cm -2 ), a maximum red-to-green UC efficiency of 0.07% and a maximum red-to-yellow UC efficiency of 8.03% were obtained and the latter can drive a Si-photodiode to generate obvious photocurrent. The results showed that although a large triplet energy-level difference (Δ E = 3 E sen. - 3 E anni. ) of the sensitizer ( 3 E sen. )/annihilator ( 3 E anni. ) pair helps to improve the upconversion, the sensitizer/annihilator pair with a Δ E value less than zero still works. However, when the Δ E ≤ -0.05 eV, this bicomponent pair is not valid anymore. Thus, a comparison of the Δ E value can predict whether the sensitizer/annihilator pair is useful, which presents a quantitatively evaluated approach for exploring new-type upconversion systems for the first time.