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Microfabrication and characterization of electrodes for neural interfaces
The focus of this project is on the intricate fabrication of microelectrodes for advanced neural interfaces in a cutting-edge cleanroom environment. Our research aims to develop high-resolution neural probes utilizing state-of-the-art microfabrication techniques.
This project involves the precise manufacturing of microelectrode arrays designed to interact with neural tissues at a microscale level. Different microfabrication techniques will be utilized to engineer highly sensitive electrodes with dimensions below 10 um.
We seek to explore novel methods and materials to enhance the functionality and biocompatibility of these neural interfaces. Students engaged in this project will delve into the process of designing, fabricating, and characterizing microelectrodes. Additionally, the development of specialized techniques for neural stimulation and imaging using these interfaces can be integrated into the scope of the project, aligning with the interests and skills of the student.
The research offers opportunities for Master's theses or semester projects tailored to the individual's background and expertise. We welcome enthusiastic students from various disciplines, including nanotechnology, mechanical engineering, biomedical engineering, materials science, electrical engineering and related fields. Prior experience or familiarity with cleanroom protocols and semiconductor processing techniques is considered advantageous for this project, but it is not a mandatory requirement.
This project involves the precise manufacturing of microelectrode arrays designed to interact with neural tissues at a microscale level. Different microfabrication techniques will be utilized to engineer highly sensitive electrodes with dimensions below 10 um.
We seek to explore novel methods and materials to enhance the functionality and biocompatibility of these neural interfaces. Students engaged in this project will delve into the process of designing, fabricating, and characterizing microelectrodes. Additionally, the development of specialized techniques for neural stimulation and imaging using these interfaces can be integrated into the scope of the project, aligning with the interests and skills of the student.
The research offers opportunities for Master's theses or semester projects tailored to the individual's background and expertise. We welcome enthusiastic students from various disciplines, including nanotechnology, mechanical engineering, biomedical engineering, materials science, electrical engineering and related fields. Prior experience or familiarity with cleanroom protocols and semiconductor processing techniques is considered advantageous for this project, but it is not a mandatory requirement.
Not specified
Dr. Fernando Cardes | fernando.cardes@bsse.ethz.ch
Dr. Fernando Cardes | fernando.cardes@bsse.ethz.ch