posted on 2023-11-01, 12:08authored byJiawei Wan, Qiubo Zhang, Jiayun Liang, Karen C. Bustillo, Zakaria Y. Al Balushi, Mark Asta, Haimei Zheng
Nanomotors in solution have many potential applications.
However,
it has been a significant challenge to realize the directional motion
of nanomotors. Here, we report cadmium chloride tetrahydrate (CdCl2·4H2O) nanomotors with remarkable directional
movement under electron beam irradiation. Using in situ liquid phase
transmission electron microscopy, we show that the CdCl2·4H2O nanoparticle with asymmetric surface facets
moves through the liquid with the flat end in the direction of motion.
As the nanomotor morphology changes, the speed of movement also changes.
Finite element simulation of the electric field and fluid velocity
distribution around the nanomotor assists the understanding of ionic
self-diffusiophoresis as a driving force for the nanomotor movement;
the nanomotor generates its own local ion concentration gradient due
to different chemical reactivities on different facets.