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A clustering-triggered emission strategy for tunable multicolor persistent phosphorescence.

Qing ZhouTianjia YangZihao ZhongFahmeeda KausarZiyi WangYongming ZhangWang Zhang Yuan
Published in: Chemical science (2020)
A clustering-triggered emission (CTE) strategy, namely the formation of heterogeneous clustered chromophores and conformation rigidification, for achieving tunable multicolor phosphorescence in single-component compounds is proposed. Non-conventional luminophores comprising just oxygen functionalities and free of π-bonding, i.e., d-(+)-xylose (d-Xyl), pentaerythritol (PER), d-fructose (d-Fru) and d-galactose (d-Gal), were adopted as a simple model system with an explicit structure and molecular packing to address the hypothesis. Their concentrated solutions and crystals at 77 K or under ambient conditions demonstrate remarkable multicolor phosphorescence afterglows in response to varying excitation wavelengths, because of the formation of diverse oxygen clusters with sufficiently rigid conformations. The intra- and inter-molecular O⋯O interactions were definitely illustrated by both single crystal structure analysis and theoretical calculations. These findings shed new light on the origin and simple achievement of tunable multicolor phosphorescence in single-component pure organics, and in turn, have strong implications for the emission mechanism of non-conventional luminophores.
Keyphrases
  • room temperature
  • crystal structure
  • flow cytometry
  • energy transfer
  • ionic liquid
  • particulate matter
  • molecular dynamics
  • solid state
  • single molecule
  • living cells
  • fluorescent probe