Journal
SENSORS AND ACTUATORS B-CHEMICAL
Volume 358, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.snb.2022.131523
Keywords
Bioinspired; Micromotor; Morphology interaction; Photothermal conversion; Marangoni effect; Cell transport
Funding
- National Key Research and Development Program of China [2018YFE0113400]
- National Natural Science Foundation of China [81771878, 81871414, 81971658, 91959109]
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This study successfully developed a light-controlled micromotor inspired by sunflower pollen grains, which can efficiently move and load cargo underwater. By adjusting the location of laser irradiation, the micromotor exhibits different motion behaviors and can capture target substances.
Micro/nanomotors with extraordinary motion capability have shown great potential in biomedicine and envi-ronmental remediation to undertake cargo transport tasks. To realize efficient microscale cargo loading, it is critical to endow micro/nanomotors with a proper surface morphology, powerful propelling force, and great motion controllability. Herein, being inspired by pollination, a light-controlled micromotors with efficient mo-tion and loading capacity based on sunflower pollen grain were successfully developed and investigated. Using focused laser irradiation, the convection generated by thermal Marangoni effect can effectively drive the micromotor underwater with great controllability. Moreover, the micromotor can exhibit two motion behaviors by adjusting the laser irradiation location, which can be employed for different application tasks. Furthermore, yeast cells, as a live cargo model, can be efficiently captured in the round-trip motion and transported in straight-line motion of the micromotor, while retaining high cell viability. These micromotors exhibit improved efficiency in capturing targets by introducing synergistic topographic interactions. Thus, these micromotors can be ex-pected to largely extend the capabilities of micro/nanomotors in propulsion, motion control and cargo, thereby providing a way for the development of intelligent micromotors.
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