论文信息 - Microshaping of Aluminum-based Neural Microelectrode Arrays Using Chemical Wet-etching

Microshaping of Aluminum-based Neural Microelectrode Arrays Using Chemical Wet-etching

Abstract Chemical wet-etching is a standard technique for microelectrode arrays (MEA) fabrication. However its manufacturing reproducibility continues to be hindered by its dependence on several process parameters. Following previous works on aluminum-based MEA fabrication [1] , this paper provides the first insight on a parametric study of the wet-etching process for an aluminum neural MEA. By playing around with some process parameters, one can achieve more homogeneous shafts with vertical or pyramidal profiles. High width uniformity (96%) along the high-aspect-ratio shafts was accomplished through the introduction of a sacrificial frame around the array. At the same time, the new fabrication approach transforms vertical square shafts into sharpened shafts with pyramidal geometries. Through fine control of the etching dynamics, different shafts geometries are feasible, allowing customized neural MEA designs for each application.

José Higino Correia | S. B. Goncalves | A. F. Silva | A. C. Peixoto | José Alberto Rodrigues

[1] P. Tresco,et al. A new high-density (25 electrodes/mm2) penetrating microelectrode array for recording and stimulating sub-millimeter neuroanatomical structures , 2013, Journal of neural engineering.

[2] Sylvain Martel,et al. Microelectrode array fabrication by electrical discharge machining and chemical etching , 2004, IEEE Transactions on Biomedical Engineering.

[3] F. Solzbacher,et al. Fabrication of 3-dimensional silicon microelectrode arrays using micro electro discharge machining for neural applications , 2009, TRANSDUCERS 2009 - 2009 International Solid-State Sensors, Actuators and Microsystems Conference.

[4] Mohamad Sawan,et al. Design and Implementation Challenges of Microelectrode Arrays: A Review , 2013 .

[5] F. Solzbacher,et al. Novel isotropic and anisotropic etching of MEMS structures by controlling the dynamics of the etchant , 2011, 2011 16th International Solid-State Sensors, Actuators and Microsystems Conference.

[6] Woo Hyoung Lee,et al. Needle-type environmental microsensors: design, construction and uses of microelectrodes and multi-analyte MEMS sensor arrays , 2011 .

[7] S. B. Goncalves,et al. Neural Electrode Array Based on Aluminum: Fabrication and Characterization , 2013, IEEE Sensors Journal.

[8] I. Papautsky,et al. Fabrication of a needle-type pH sensor by selective electrodeposition , 2011 .