Light to heat conversion efficiency of single-walled carbon nanotubes

Abstract

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Semiconducting single-walled carbon nanotubes (s-SWCNTs) have the potential as light to heat efficiency, recently known as photothermal conversion efficiency [Formula: see text], for photothermal therapeutic applications since they exhibit strong absorption in the near-infrared region (NIR). We report experimental studies of light to heat efficiency of two classes of s-SWCNTs, including double chiralities (DC) and many chiralities (MC) of s-SWCNTs. The [Formula: see text] was obtained by using the results from the experimental heating of s-SWCNTs with NIR light at 808 nm. Interestingly, the [Formula: see text] of MC s-SWCNTs was 1.88-fold higher than DC s-SWCNTs, which leads to a 19% decrease in the heating rate of DC compared to the heating rate of MC s-SWCNTs. This study demonstrates that chirality dependence is an essential metric in the heating rate of s-SWCNTs and provides a validated framework to compare the heating capabilities between DC and MC.

Keywords

• Single walled carbon nanotubes
• chirality dependance
• photothermal conversion efficiency
• temperature elevation