Long‐lived afterglow room‐temperature phosphorescence (RTP) from natural phenolics has seldom been reported yet this is essential for the development of sustainable afterglow RTP materials. With this research, we have prepared sustainable afterglow RTP materials (GA@SA) with a lifetime of up to ≈934.7?ms by embedding gallic acid (GA) within a Ca2+‐crosslinked sodium alginate (SA) matrix. Theoretical simulations indicate that the restricted carbonyl moieties of the GA and H‐type aggregates of GA in a SA matrix promoted the spin orbit coupling (SOC) of GA and induced afterglow emission. Moreover, afterglow RTP emission could be produced by embedding different types of natural phenolics such as, tannic acid, caffeic acid and chlorogenic acid into Ca2+‐crosslinked networks of SA. As an illustration of potential applications, GA@SA was used to prepare anti‐counterfeit afterglow clothing and paper. This work provides an innovative method for the activation of long‐lived afterglow RTP from sustainable phenolics.(#br)Sustainable organic afterglow room‐temperature phosphorescence (RTP) with long lifetime is a particularly attractive phenomenon but remains difficult to achieve. Here, we prepared sustainable afterglow RTP materials (GA@SA) with a lifetime up to 934.7?ms by embedding gallic acid (GA) within a Ca2+‐crosslinked sodium alginate (SA) matrix.

• 单位
  河南师范大学; 东北林业大学