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View all- Chang T(2019)Micromachining of microfluidic channels in glass by microjoule femtosecond laser pulsesMicroelectronic Engineering10.1016/j.mee.2013.03.142110(450-456)Online publication date: 1-Jan-2019
Novel 3D microelectrodes and pipettes by wet and dry etching
Authors: 
Maria Dimaki, Patricia Vazquez, Alessandro Aimone, Mark H. Olsen, Luigi Sasso, Romen Rodriguez-Trujillo, Winnie E. SvendsenAuthors Info & Claims
Maria Dimaki, Patricia Vazquez, Alessandro Aimone, Mark H. Olsen, Luigi Sasso, Romen Rodriguez-Trujillo, Winnie E. SvendsenAuthors Info & ClaimsAbstract
The purpose of this work is to develop novel 3D micro- and nanoelectrodes and pipettes by use of carefully optimised standard microfabrication techniques such as wet (by KOH) and dry silicon etching. Two types of electrodes have been fabricated and characterized: small nanoelectrodes to be used for localised measurements on cell cultures and high aspect ratio scalloped microelectrodes for measurements in brain slices. This paper presents improved fabrication processes for both types of electrodes and the pipettes, as well as the electrical and electrochemical characterization of the small electrodes in order to confirm their functionality. Although functional, an increase in the electrode surface area is needed if they are to be used for electrophysiological measurements. Finally, the pipettes fabricated have openings of the order of 500nm, which makes them ideal candidates for localised stimulation of cell or brain slice cultures.
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Published: 01 December 2012
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View all- Chang T(2019)Micromachining of microfluidic channels in glass by microjoule femtosecond laser pulsesMicroelectronic Engineering10.1016/j.mee.2013.03.142110(450-456)Online publication date: 1-Jan-2019