Abstract
Open-shell organic radical semiconductor materials have received increasing attention in recent years due to their distinctive properties compared to the traditional materials with closed-shell singlet ground state. However, their poor chemical and photothermal stability in ambient conditions remains a significant challenge, primarily owing to their high reactivity with oxygen. Herein, a novel open-shell poly(3,4-dioxythiophene) radical PTTO(2) is designed and readily synthesized for the first time using low-cost raw material via a straightforward BBr(3)-demethylation of the copolymer PTTOMe(2) precursor. The open-shell character of PTTO(2) is carefully studied and confirmed via the signal-silent (1)H nuclear magnetic resonance spectrum, highly enhanced electron spin resonance signal compared with PTTOMe(2), as well as the ultra-wide ultraviolet-visible-near nfraredUV-vis-NIR absorption and other technologies. Interestingly, the powder of PTTO(2) exhibits an extraordinary absorption range spanning from 300 to 2500 nm and can reach 274 °C under the irradiation of 1.2 W cm(-2), substantially higher than the 108 °C achieved by PTTOMe(2). The low-cost PTTO(2) stands as one of the best photothermal conversion materials among the pure organic photothermal materials and provides a new scaffold for the design of stable non-doped open-shell polymers.