Issue 14, 2021

Coupling molecular rigidity and flexibility on fused backbones for NIR-II photothermal conversion

Abstract

Great attention is being increasingly paid to photothermal conversion in the near-infrared (NIR)-II window (1000–1350 nm), where deeper tissue penetration is favored. To date, only a limited number of organic photothermal polymers and relevant theory have been exploited to direct the molecular design of polymers with highly efficient photothermal conversion, specifically in the NIR-II window. This work proposes a fused backbone structure locked via an intramolecular hydrogen bonding interaction and double bond, which favors molecular planarity and rigidity in the ground state and molecular flexibility in the excited state. Following this proposal, a particular class of NIR-II photothermal polymers are prepared. Their remarkable photothermal conversion efficiency is in good agreement with our strategy of coupling polymeric rigidity and flexibility, which accounts for the improved light absorption on going from the ground state to the excited state and nonradiative emission on going from the excited state to the ground state. It is envisioned that such a concept of coupling polymeric rigidity and flexibility will offer great inspiration for developing NIR-II photothermal polymers with the use of other chromophores.

Graphical abstract: Coupling molecular rigidity and flexibility on fused backbones for NIR-II photothermal conversion

Supplementary files

Article information

Article type
Edge Article
Submitted
05 Jan 2021
Accepted
16 Feb 2021
First published
17 Feb 2021
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2021,12, 5177-5184

Coupling molecular rigidity and flexibility on fused backbones for NIR-II photothermal conversion

Y. He, H. Liao, S. Lyu, X. Xu, Z. Li, I. McCulloch, W. Yue and Y. Wang, Chem. Sci., 2021, 12, 5177 DOI: 10.1039/D1SC00060H

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