|Switch-matrix-based high-density microelectrode array in CMOS technology|
U Frey, J Sedivy, F Heer, R Pedron, M Ballini, J Mueller, D Bakkum, ...
IEEE Journal of Solid-State Circuits 45 (2), 467-482, 2010
|Tracking axonal action potential propagation on a high-density microelectrode array across hundreds of sites|
DJ Bakkum, U Frey, M Radivojevic, TL Russell, J Müller, M Fiscella, ...
Nature communications 4 (1), 1-12, 2013
|High-resolution CMOS MEA platform to study neurons at subcellular, cellular, and network levels|
J Müller, M Ballini, P Livi, Y Chen, M Radivojevic, A Shadmani, V Viswam, ...
Lab on a Chip 15 (13), 2767-2780, 2015
|A 1024-channel CMOS microelectrode array with 26,400 electrodes for recording and stimulation of electrogenic cells in vitro|
M Ballini, J Müller, P Livi, Y Chen, U Frey, A Stettler, A Shadmani, ...
IEEE journal of solid-state circuits 49 (11), 2705-2719, 2014
|High-density microelectrode array recordings and real-time spike sorting for closed-loop experiments: an emerging technology to study neural plasticity|
F Franke, D Jäckel, J Dragas, J Müller, M Radivojevic, D Bakkum, ...
Frontiers in neural circuits 6, 105, 2012
|In Vitro Multi-Functional Microelectrode Array Featuring 59 760 Electrodes, 2048 Electrophysiology Channels, Stimulation, Impedance Measurement, and …|
J Dragas, V Viswam, A Shadmani, Y Chen, R Bounik, A Stettler, ...
IEEE journal of solid-state circuits 52 (6), 1576-1590, 2017
|Congenital nystagmus gene FRMD7 is necessary for establishing a neuronal circuit asymmetry for direction selectivity|
K Yonehara, M Fiscella, A Drinnenberg, F Esposti, S Trenholm, J Krol, ...
Neuron 89 (1), 177-193, 2016
|Recording from defined populations of retinal ganglion cells using a high-density CMOS-integrated microelectrode array with real-time switchable electrode selection|
M Fiscella, K Farrow, IL Jones, D Jäckel, J Müller, U Frey, DJ Bakkum, ...
Journal of neuroscience methods 211 (1), 103-113, 2012
|Sub-millisecond closed-loop feedback stimulation between arbitrary sets of individual neurons|
J Müller, DJ Bakkum, A Hierlemann
Frontiers in neural circuits 6, 121, 2013
|Electrical identification and selective microstimulation of neuronal compartments based on features of extracellular action potentials|
M Radivojevic, D Jäckel, M Altermatt, J Müller, V Viswam, A Hierlemann, ...
Scientific reports 6, 31332, 2016
|22.8 Multi-functional microelectrode array system featuring 59,760 electrodes, 2048 electrophysiology channels, impedance and neurotransmitter measurement units|
V Viswam, J Dragas, A Shadmani, Y Chen, A Stettler, J Müller, ...
2016 IEEE International Solid-State Circuits Conference (ISSCC), 394-396, 2016
|Massively parallel microwire arrays integrated with CMOS chips for neural recording|
A Obaid, ME Hanna, YW Wu, M Kollo, R Racz, MR Angle, J Müller, ...
Science advances 6 (12), eaay2789, 2020
|Combination of high-density microelectrode array and patch clamp recordings to enable studies of multisynaptic integration|
D Jäckel, DJ Bakkum, TL Russell, J Müller, M Radivojevic, U Frey, ...
Scientific reports 7 (1), 1-17, 2017
|Tracking individual action potentials throughout mammalian axonal arbors|
M Radivojevic, F Franke, M Altermatt, J Müller, A Hierlemann, DJ Bakkum
Elife 6, e30198, 2017
|Visual coding with a population of direction-selective neurons|
M Fiscella, F Franke, K Farrow, J Müller, B Roska, R Azeredo da Silveira, ...
Journal of neurophysiology 114 (4), 2485-2499, 2015
|A 1024-channel CMOS microelectrode-array system with 26'400 electrodes for recording and stimulation of electro-active cells in-vitro|
M Ballini, J Mueller, P Livi, Y Chen, U Frey, A Shadmani, IL Jones, ...
2013 Symposium on VLSI Circuits, C54-C55, 2013
|High-density CMOS microelectrode array system for impedance spectroscopy and imaging of biological cells|
V Vijay, B Raziyeh, S Amir, D Jelena, BJ Alicia, B Axel, M Jan, C Yihui, ...
2016 IEEE SENSORS, 1-3, 2016
|Cortical axons, isolated in channels, display activity-dependent signal modulation as a result of targeted stimulation|
MK Lewandowska, M Radivojević, D Jäckel, J Müller, AR Hierlemann
Frontiers in neuroscience 10, 83, 2016
|Single-cell electrical stimulation using CMOS-based high-density microelectrode arrays|
S Ronchi, M Fiscella, C Marchetti, V Viswam, J Müller, U Frey, ...
Frontiers in neuroscience 13, 208, 2019
|Impedance spectroscopy and electrophysiological imaging of cells with a high-density CMOS microelectrode array system|
V Viswam, R Bounik, A Shadmani, J Dragas, C Urwyler, JA Boos, ...
IEEE transactions on biomedical circuits and systems 12 (6), 1356-1368, 2018