Issue 11, 2013

Activated photothermal heating using croconaine dyes

Abstract

Laser-induced photothermal heating is promoted by dyes or nanoparticles that strongly absorb light and convert it into heat. The best known near-infrared absorbing systems are gold nanorods and nanocages. The alternative strategy of using organic dyes to absorb the laser light has several inherent advantages due to the small molecular size and potential synthetic flexibility, but a major drawback is rapid photothermal bleaching. Here, we report three important findings: (a) near-infrared croconaine dyes exhibit outstanding properties for high performance photothermal heating; including an intense and narrow absorption band at around 800 nm, high chemical, photo- and thermal stability, very efficient relaxation to the ground state, and very low oxygen photosensitization ability. (b) Photothermal heating obeys the Beer–Lambert law (1 − 10A) and sample heating reaches an asymptotic limit when chromophore absorbance values are greater than ∼1. (c) Croconaine dyes form red-shifted encapsulation complexes which allows the realization of molecular recognition induced activated photothermal heating, a broadly applicable nanoscale design concept that employs chemical or supramolecular processes to switch on laser-induced hyperthermia.

Graphical abstract: Activated photothermal heating using croconaine dyes

Supplementary files

Article information

Article type
Edge Article
Submitted
15 Jul 2013
Accepted
20 Aug 2013
First published
20 Aug 2013

Chem. Sci., 2013,4, 4240-4244

Activated photothermal heating using croconaine dyes

G. T. Spence, G. V. Hartland and B. D. Smith, Chem. Sci., 2013, 4, 4240 DOI: 10.1039/C3SC51978C

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