Aromatic Hydrocarbon Based and Space Interactions Induced Color-tunable Single-component Organic Phosphorescence

Weitao Sun; Ruikang Duan; Xianyin Dai; Wei Liu; Jinwei Li; Qi Gong; Guiyun Duan; Yanqing Ge

doi:10.1002/asia.202300899

Aromatic Hydrocarbon Based and Space Interactions Induced Color-tunable Single-component Organic Phosphorescence

Chem Asian J. 2024 Feb 1;19(3):e202300899. doi: 10.1002/asia.202300899. Epub 2024 Jan 18.

Authors

Weitao Sun¹, Ruikang Duan², Xianyin Dai¹, Wei Liu¹, Jinwei Li¹, Qi Gong¹, Guiyun Duan¹, Yanqing Ge¹

Affiliations

¹ School of Chemistry and Pharmaceutical Engineering, Shandong First Medical University & Shandong Academy of Medical Sciences, Taian, 271016, China.
² Shanghai Fengxian Central Hospital, Shanghai, 201400, China.

PMID: 38092700
DOI: 10.1002/asia.202300899

Abstract

Construction of new system and exploration of new approach are of great importance for the improvement of their photophysical properties to meet the growing various uses of phosphorescent materials. Triphenylmethane (TPM), composed only of carbon and hydrogen, exhibits excellent color tunable phosphorescence in air, with ultralong lifetime (836 ms), and wide color-tunable range (from cyan to green, then to yellow and finally to orange, 525 nm-616 nm). Through careful comparison with the single crystal diffraction structure of tetraphenylmethane (TTPM) and theoretical calculation analysis, we believe that various clusters formed through space interactions are crucial for color-tunable phosphorescence.

Keywords: Aromatic hydrocarbon; Color-tunability; Room-temperature phosphorescence; Space interactions.

Abstract

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