Alignment of Thermally Conducting Nanotubes Making High-Performance Light-Driving Motors

ACS Applied Materials & Interfaces
Meng LiaoHuisheng Peng

Abstract

Light-actuating devices that can produce selective motions at small scales are highly desired for on-demand manipulation. For conventional photothermal motors that mostly encounter the homogenous light-induced heat diffusion at the liquid/air interface, it is challenging to effectively control the actuating direction and enhance the actuating speed. To this end, here, we explore aligned thermally conducting one-dimensional nanomaterials to make light-driving motors where the light-induced heat can be transmitted to the water surface along the length direction of the aligned one-dimensional nanomaterials to generate a localized surface tension gradient for high spatial resolution propulsion. When multiwalled carbon nanotubes were studied as a demonstration, the aligned active layer generated sufficient propulsion to drive a centimeter-sized motor that was 10 000 times higher in mass of the actuating layer on water. In addition, the actuating direction had been accurately controlled by varying the illuminated region of the active aligned nanotube layer. The resulting light-driving motors can move as fast as 4.19 cm/s (or 5.2 body length per second), which exceeded the previous motors based on the light activation.

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Citations

Sep 11, 2019·Applied Optics·Xinbin ZhangJie Zhao
Dec 23, 2020·ACS Applied Materials & Interfaces·Yuanyuan YangYajing Shen
Nov 20, 2021·Chemical Reviews·Zhihan ChenYuebing Zheng

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