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Precise Regulation the Multiemission Based on Soft Double Salt for Information Encryption.

Xin LeiYeye AiZhu ShuWei WangYongguang Li
Published in: Inorganic chemistry (2024)
Manipulation of multiemissive luminophores is meaningful for exploring luminescent materials. Herein, we report a soft double salt assembly strategy that could result in well-organized nanostructures and different luminescence based on multiple weak intermolecular interactions thanks to the existence of electrostatic attraction between the anionic and cationic platinum(II) complexes. The cationic complexes B1 and B2 can coassemble with anionic complex A , respectively, and the emission switches from monomeric and excimeric emission to the triplet metal-metal-to-ligand charge transfer ( 3 MMLCT) along with morphology changes from 0-dimensional (0-D) nanospheres to 3-dimensional (3-D) nanostructures. It is demonstrated that an isodesmic growth mechanism is adopted during the spontaneous self-assembly process, and the relative negative Δ G values make the anionic and cationic complex molecules prefer to form aggregates based on π-π stacking, Pt···Pt interactions, and electrostatic interactions. The coassembly strategy between anionic and cationic complexes endows them with multicolor luminescent and apparent color as optical materials for advanced information encryption.
Keyphrases
  • energy transfer
  • quantum dots
  • sensitive detection
  • molecular dynamics simulations
  • health information
  • high resolution
  • metal organic framework
  • healthcare
  • computed tomography