ZnO-based micromotors fueled by CO
| Autor: | Fangzhi, Mou, Qi, Xie, Jianfeng, Liu, Shengping, Che, Lamya, Bahmane, Ming, You, Jianguo, Guan |
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| Rok vydání: | 2020 |
| Předmět: | |
| Zdroj: | National Science Review |
| ISSN: | 2053-714X |
| Popis: | Synthetic chemotactic micro/nanomotors are envisioned to actively ‘seek out’ targets by following specific chemicals, but they are mainly powered by bioincompatible fuels and only show pseudochemotaxis (or advanced chemokinesis) due to their weak self-reorientation capabilities. Here we demonstrate that synthetic ZnO-based Janus micromotors can be powered by the alternative biocompatible fuel of CO2, and further provide the first example of self-reorientation-induced biomimetic chemotaxis using them. The ZnO-based micromotors are highly sensitive to dissolved CO2 in water, which enables the corrosion of ZnO to continuously occur by providing H+ through hydration. Thus, they can autonomously move even in water exposed to air based on self-diffusiophoresis. Furthermore, they can sense the local CO2 gradient and perform positive chemotaxis by self-reorientations under the phoretic torque. Our discovery opens a gate to developing intelligent micro/nanomotors powered by, and sensitive to, biocompatible atmospheric or endogenous gaseous chemicals for biomedical and environmental applications. Synthetic ZnO-based micromotors can autonomously move in water by acquiring CO2 from air, and perform positive chemotaxis following the local CO2 gradient by self-reorientations under the electro-osmotic viscous torque. |
| Databáze: | OpenAIRE |
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