Register now After registration you will be able to apply for this opportunity online.
This opportunity is not published. No applications will be accepted.
Transformable microrobot inspired by microorganism
Inspired by the microorganism in nature, the varied motor patterns can be mimicked in the microrobot, which has better performance in mobility and functionality. In this project, the student will develop the transformable helical microrobot using photolithography. Then, she/he will analyze the design parameters' effect on the shape morphing and motor pattern; furthermore, the student needs to discuss different surface properties' impact on the microrobot.
For master thesis, it will last for 6 months. For the semester project, it will last for one semester. We can negotiate for the time period.
For master thesis, it will last for 6 months. For the semester project, it will last for one semester. We can negotiate for the time period.
The student will develop the transformable helical microrobot using photolithography. Then, she/he will analyze the design parameters' effect on the shape morphing and motor pattern; furthermore, the student needs to discuss different surface properties' impact on the microrobot.
The student will develop the transformable helical microrobot using photolithography. Then, she/he will analyze the design parameters' effect on the shape morphing and motor pattern; furthermore, the student needs to discuss different surface properties' impact on the microrobot.
* ontact: Quan Gao, Dr. Minsoo Kim. Please email your CV and transcripts to gaoq@ethz.ch
* ontact: Quan Gao, Dr. Minsoo Kim. Please email your CV and transcripts to gaoq@ethz.ch