Search Results - "Herwik, S."

Ultrathin Silicon Chips of Arbitrary Shape by Etching Before Grinding by Herwik, S., Paul, O., Ruther, P.

“…A complementary-metal-oxide-semiconductor-compatible fabrication technique for ultrathin silicon chips of arbitrary shape is reported. It combines deep…”
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Two-Dimensional Multi-Channel Neural Probes With Electronic Depth Control by Torfs, T., Aarts, A. A. A., Erismis, M. A., Aslam, J., Yazicioglu, R. F., Seidl, K., Herwik, S., Ulbert, I., Dombovari, B., Fiath, R., Kerekes, B. P., Puers, R., Paul, O., Ruther, P., Van Hoof, C., Neves, H. P.

“…This paper presents multi-electrode arrays for in vivo neural recording applications incorporating the principle of electronic depth control (EDC), i.e., the…”
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CMOS-Based High-Density Silicon Microprobe Arrays for Electronic Depth Control in Intracortical Neural Recording by Seidl, K., Herwik, S., Torfs, T., Neves, H. P., Paul, O., Ruther, P.

“…This paper reports on a novel high-density CMOS-based silicon microprobe array for intracortical recording applications. In contrast to existing systems, CMOS…”
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Microprobe Array with Low Impedance Electrodes and Highly Flexible Polyimide Cables for Acute Neural Recording by Kisban, S., Herwik, S., Seidl, K., Rubehn, B., Paul, O., Ruther, P., Stieglitz, T., Jezzini, A.

“…This paper reports on a novel type of silicon- based microprobes with linear, two and three dimensional (3D) distribution of their recording sites. The…”
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Hybrid microprobes for chronic implantation in the cerebral cortex by Kisban, S., Janssen, P., Herwik, S., Stieglitz, T., Paul, O., Ruther, P.

“…This paper reports on a neural device for chronic implantation into the cerebral cortex. Silicon microprobes with 36 electrodes arranged on four shafts are…”
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A 3D slim-base probe array for in vivo recorded neuron activity by Aarts, A. A. A., Neves, H. P., Ulbert, I., Wittner, L., Grand, L., Fontes, M. B. A., Herwik, S., Kisban, S., Paul, O., Ruther, P., Puers, R. P., Van Hoof, C.

“…This paper introduces the first experimental results of a new implantable slim-base three-dimensional (3D) probe array for cerebral applications. The probes…”
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Discrete cortical responses from multi-site supra-choroidal electrical stimulation in the feline retina by Suaning, G J, Kisban, S, Chen, S C, Byrnes-Preston, P J, Dodds, C, Tsai, D, Matteucci, P, Herwik, S, Morley, J W, Lovell, N H, Paul, O, Stieglitz, T, Ruther, P

“…Exploration into electrical stimulation of the retina has thus far focussed primarily upon the development of prostheses targeted at one of two sites of…”
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Reliability characterization of interconnects in CMOS integrated circuits under mechanical stress by Hillebrecht, S., Polian, I., Becker, B., Ruther, P., Herwik, S., Paul, O.

“…Integrated circuits are often subjected to mechanical stress resulting from external loads or intrinsic stress caused by the mismatch in thermal expansion…”
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Out-of-plane assembly of 3D neural probe arrays using a platform with SU-8-based thermal actuators by Herwik, S., Holzhammer, T., Paul, O., Ruther, P.

“…This paper describes an optimized out-of-plane assembly method based on a platform with integrated thermal actuators. The platform comprises cavities with…”
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Compact wireless neural recording system for small animals using silicon-based probe arrays by Ruther, P., Holzhammer, T., Herwik, S., Rich, P. D., Dalley, J. W., Paul, O., Holtzman, T.

“…This paper reports on a compact, small-scale neural recording system combining state-of-art silicon-based probe arrays with a light-weight 32-channel wireless…”
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CMOS-Based High-Density Silicon Microprobe Array for Electronic Depth Control in Neural Recording by Seidl, K., Herwik, S., Nurcahyo, Y., Torfs, T., Keller, M., Schuttler, M., Neves, H., Stieglitz, T., Paul, O., Ruther, P.

“…This paper reports on a novel CMOS-based high-density silicon microprobe array for intracortical recording applications. In contrast to existing systems, CMOS…”
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Two-dimensional multi-channel neural probes with electronic depth control by Torfs, T, Aarts, A, Erismis, M A, Aslam, J, Yazicioglu, R F, Puers, R, Van Hoof, C, Neves, H, Ulbert, I, Dombovari, B, Fiath, R, Kerekes, B P, Seidl, K, Herwik, S, Ruther, P

“…Multi-electrode arrays for in vivo neural recording are presented incorporating the principle of electronic depth control, i.e. an electronic selection of…”
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