An Implantable 455-Active-Electrode 52-Channel CMOS Neural Probe
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Refet Firat Yazicioglu | Robert Puers | Georges G. E. Gielen | Srinjoy Mitra | Wolfgang Eberle | Carmen Bartic | Alexandru Andrei | Carolina Mora Lopez | Marleen Welkenhuysen | A. Andrei | C. Lopez | R. Puers | R. Yazicioglu | M. Welkenhuysen | W. Eberle | C. Bartic | S. Mitra
[1] U. Hofmann,et al. Institute of Physics Publishing Journal of Micromechanics and Microengineering a 32-site Neural Recording Probe Fabricated by Drie of Soi Substrates , 2022 .
[2] R.J. Vetter,et al. Development of a Microscale Implantable Neural Interface (MINI) Probe System , 2005, 2005 IEEE Engineering in Medicine and Biology 27th Annual Conference.
[3] Jiangang Du,et al. Multiplexed, High Density Electrophysiology with Nanofabricated Neural Probes , 2011, PloS one.
[4] Jan M. Rabaey,et al. A 0.013 ${\hbox {mm}}^{2}$, 5 $\mu\hbox{W}$ , DC-Coupled Neural Signal Acquisition IC With 0.5 V Supply , 2012, IEEE Journal of Solid-State Circuits.
[5] Steve M. Potter,et al. Improving Impedance of Implantable Microwire Multi-Electrode Arrays by Ultrasonic Electroplating of Durable Platinum Black , 2010, Front. Neuroeng..
[6] R. Quian Quiroga,et al. Unsupervised Spike Detection and Sorting with Wavelets and Superparamagnetic Clustering , 2004, Neural Computation.
[7] Refet Firat Yazicioglu,et al. Two-Dimensional Multi-Channel Neural Probes With Electronic Depth Control , 2010, IEEE Transactions on Biomedical Circuits and Systems.
[8] R. Normann,et al. Thermal Impact of an Active 3-D Microelectrode Array Implanted in the Brain , 2007, IEEE Transactions on Neural Systems and Rehabilitation Engineering.
[9] B. McNaughton,et al. Tetrodes markedly improve the reliability and yield of multiple single-unit isolation from multi-unit recordings in cat striate cortex , 1995, Journal of Neuroscience Methods.
[10] T. Blanche,et al. Polytrodes: high-density silicon electrode arrays for large-scale multiunit recording. , 2005, Journal of neurophysiology.
[11] J. Csicsvari,et al. Accuracy of tetrode spike separation as determined by simultaneous intracellular and extracellular measurements. , 2000, Journal of neurophysiology.
[12] G. Buzsáki. Large-scale recording of neuronal ensembles , 2004, Nature Neuroscience.
[13] Jacob T. Robinson,et al. Nanowire electrodes for high-density stimulation and measurement of neural circuits , 2013, Front. Neural Circuits.
[14] Patrick Ruther,et al. Compact wireless neural recording system for small animals using silicon-based probe arrays , 2011, 2011 Annual International Conference of the IEEE Engineering in Medicine and Biology Society.
[15] Refet Firat Yazicioglu,et al. An implantable 455-active-electrode 52-channel CMOS neural probe , 2013, 2013 IEEE International Solid-State Circuits Conference Digest of Technical Papers.
[16] Refet Firat Yazicioglu,et al. A 200μW Eight-Channel Acquisition ASIC for Ambulatory EEG Systems , 2008, 2008 IEEE International Solid-State Circuits Conference - Digest of Technical Papers.
[17] R. R. Harrison,et al. A low-power low-noise CMOS amplifier for neural recording applications , 2003, IEEE J. Solid State Circuits.
[18] Ingmar H. Riedel-Kruse,et al. High-resolution three-dimensional extracellular recording of neuronal activity with microfabricated electrode arrays. , 2009, Journal of neurophysiology.
[19] Robert Puers,et al. A Multichannel Integrated Circuit for Electrical Recording of Neural Activity, With Independent Channel Programmability , 2012, IEEE Transactions on Biomedical Circuits and Systems.
[20] K. Horch,et al. A silicon-based, three-dimensional neural interface: manufacturing processes for an intracortical electrode array , 1991, IEEE Transactions on Biomedical Engineering.
[21] Yong Ping Xu,et al. A 1V 2.3/spl mu/W Biomedical Signal Acquisition IC , 2006, 2006 IEEE International Solid State Circuits Conference - Digest of Technical Papers.
[22] R. Genov,et al. 256-Channel Neural Recording and Delta Compression Microsystem With 3D Electrodes , 2009, IEEE Journal of Solid-State Circuits.
[23] Robert Puers,et al. Towards a noise prediction model for in vivo neural recording , 2012, 2012 Annual International Conference of the IEEE Engineering in Medicine and Biology Society.
[24] K D Wise,et al. An Ultra Compact Integrated Front End for Wireless Neural Recording Microsystems , 2010, Journal of Microelectromechanical Systems.
[25] W. Liu,et al. A 128-Channel 6 mW Wireless Neural Recording IC With Spike Feature Extraction and UWB Transmitter , 2009, IEEE Transactions on Neural Systems and Rehabilitation Engineering.
[26] Teresa H. Y. Meng,et al. HermesE: A 96-Channel Full Data Rate Direct Neural Interface in 0.13 $\mu$ m CMOS , 2012, IEEE Journal of Solid-State Circuits.
[27] R.R. Harrison,et al. A Low-Power Integrated Circuit for a Wireless 100-Electrode Neural Recording System , 2006, IEEE Journal of Solid-State Circuits.
[28] M. Moffitt,et al. Model-based analysis of cortical recording with silicon microelectrodes , 2005, Clinical Neurophysiology.
[29] Kensall D. Wise,et al. Band-tunable and multiplexed integrated circuits for simultaneous recording and stimulation with microelectrode arrays , 2005, IEEE Transactions on Biomedical Engineering.
[30] Melanie Hartmann,et al. Design Of Analog Cmos Integrated Circuits , 2016 .
[31] W.M.C. Sansen,et al. A micropower low-noise monolithic instrumentation amplifier for medical purposes , 1987 .
[32] Ueli Rutishauser,et al. Online detection and sorting of extracellularly recorded action potentials in human medial temporal lobe recordings, in vivo , 2006, Journal of Neuroscience Methods.
[33] Yusuf Leblebici,et al. A micropower neural recording amplifier with improved noise efficiency factor , 2009, 2009 European Conference on Circuit Theory and Design.
[34] R. Olsson,et al. A three-dimensional neural recording microsystem with implantable data compression circuitry , 2005, ISSCC. 2005 IEEE International Digest of Technical Papers. Solid-State Circuits Conference, 2005..
[35] Moo Sung Chae,et al. Design Optimization for Integrated Neural Recording Systems , 2008, IEEE Journal of Solid-State Circuits.
[36] Winnie Jensen,et al. A Novel High Channel-Count System for Acute Multisite Neuronal Recordings , 2006, IEEE Transactions on Biomedical Engineering.
[37] J. Csicsvari,et al. Massively parallel recording of unit and local field potentials with silicon-based electrodes. , 2003, Journal of neurophysiology.