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Microrobot development based on origami design
Origami design affords the larger shape changing in the real world, like a satellite deployable structure. The lithography can bring the origami strategy into the microrobot design. Origami-based shape morphing can mimic the satellite's different shapes in the delivery and operation stages. It can expand the functionality of micro medical robots.
The student will develop an origami microrobot in this project, including design and nanoscale 3D printing. Then, one should evaluate the origami shape-morphing performance.
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 an origami microrobot in this project, including design and nanoscale 3D printing. Then, one should evaluate the origami shape-morphing performance.
The student will develop an origami microrobot in this project, including design and nanoscale 3D printing. Then, one should evaluate the origami shape-morphing performance.
Contact: Quan Gao (gaoq@ethz.ch) Dr. Minsoo Kim (minkim@ethz.ch)
Please email your CV and transcripts to gaoq@ethz.ch
Contact: Quan Gao (gaoq@ethz.ch) Dr. Minsoo Kim (minkim@ethz.ch) Please email your CV and transcripts to gaoq@ethz.ch