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Recently, lab on a Chip, an international academic journal, published its latest research in the field of micro-robots and biodynames in the field of micro-robots and biodynames in the form of a cover paper by the Micronami nano-group of the Shenyang Institute of Automation of the Chinese Academy of Sciences.
cells are a class of microorganisms that swim freely in water, usually between ten and tens of microns in length.
From an engineering point of view, algae cells are like miniature robots, with the ability to sense and drive energy from the surrounding liquid environment, and efficiently convert chemical energy into the mechanical energy of their whiplash, pushing cells to move freely.
algae cells are free to swim in the water, how to achieve its robot movement and work to the outside world is a difficult problem in the intersection of biology and robotics.
this problem, shenyang Automation Micron nano-group carried out algae cell micro-robot research, and achieved phased results.
the paper published on the cover of Lab on a Chip, this paper discusses the micronamide task force in the early control of algae cells along any set route, based on the further realization of algae cells array rotation.
, combined with light-induced dielectric swimming technology (ODEP), established a model of the rotational state and force of algae cells in the ODEP micro-environment, and realized the rapid capture and array rotation of algae cells, and effectively regulated the speed of cell rotation by changing the light strength.
algae cell rotation array is expected to play an important role in microflow control and biodyning as a microscale motor array.
Shenyang Automation Micron nano-group has carried out a series of studies in micro-nano-robots, nanotechnology, biotechnology, etc., and the results have been published in international journals such as Nature Communications, Small, Soft Matter, Applied Physics and IEEE.
This paper, published on the cover of Lab on a Chip, an international academic journal, is the 10th cover-up of the Shenyang Automation Institute Micron nano-group, indicating that the research in the field of micronascing technology and biotechnology in Shenyang Automation is constantly systematic and in-depth, and its influence at home and abroad has steadily increased, laying the foundation for better results in the future.
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