Advanced Photonics Research (Feb 2021)

Taming the Photonic Behavior of Laser Dyes Through Specific and Dynamic Self‐Assembly onto Cellulose Nanocrystals

  • Edurne Avellanal-Zaballa,
  • Jorge Bañuelos,
  • Hegoi Manzano,
  • Jose Luis Chiara,
  • Luis Cerdán,
  • Inmaculada Garcia-Moreno

DOI
https://doi.org/10.1002/adpr.202000107
Journal volume & issue
Vol. 2, no. 2
pp. n/a – n/a

Abstract

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Cellulose nanocrystals (CNCs) display a set of unique properties such as surface charge, nanometric size, and giant dipole moment that have not been considered so far to tame the luminescent properties of organic dyes upon soft and hard photoexcitation. Herein, the first comprehensive analysis on the photonic behavior of laser dyes adsorbed onto CNCs through physically dynamic driving forces is reported. By systematically varying the solvent, the dye molecular structure, and dye/CNC ratios, it is shown that the dye absorption and emission signatures are drastically modified when CNCs are incorporated into the solutions. The photonic characterization, together with molecular dynamic simulations, allows to unravel the labeling interaction processes and unambiguously assigns both the physicochemical properties of the surrounding media and the giant permanent dipole moment of CNCs as the most important factors taming the photophysical and lasing properties of dyes adsorbed on it. Accordingly, a CNC‐induced Stark effect accounts for the absorption and emission spectral changes recorded upon CNC incorporation. Herein, the widely expanding applications of CNCs toward the design of advanced photoactive nanomaterials based on these renewable building blocks are opened up.

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