Out-of-plane neural microelectrode arrays fabrication using conventional blade dicing by Oliveira, M. J., Peixoto, A. C., Correia, J. H., Goncalves, S. B, Silva, A. F.

“…\This paper describes an optimized out-of-plane fabrication method for neural 3D high-aspect-ratio microelectrode array (MEA) based on a dicing technology platform (a standard procedure in semiconductor industry). …”
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Microfluidic cell sorter with 3D microelectrode array for fetal cell enrichment by Chetan Shivaiah.

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Continuous cell separation using dielectrophoresis through asymmetric and periodic microelectrode array by Chian, Kerm Sin (MAE), Ling, Siang Hooi, Lam, Yee Cheong

“…The cells that experience stronger positive dielectrophoresis are streamed further in the perpendicular direction to the fluid flow, leaving the cells that experience weak positive dielectrophoresis, which continue to traverse the microelectrode array essentially along the laminar flow streamlines. …”
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Electroanalysis of Bromate, iodate and chlorate at tungsten oxide modified platinum microelectrode arrays by Ordeig, O, Banks, C, Javier Del Campo, F, Xavier Munoz, F, Compton, R

“…After the analysis, the modifying oxide is easily removed and the Pt microelectrode array recovers its original properties. Finally, the detection limit is calculated using a propagation of errors approach which in the present context turned out more appropriate than IUPAC's 3σ. © 2006 Wiley-VCH Verlag GmbH and Co. …”

Toward membrane-free amperometric gas sensors: a microelectrode array approach. by Huang, X, Aldous, L, O'Mahony, A, del Campo, F, Compton, R

“…Room temperature ionic liquids (RTILs) have been applied to a microelectrode array and been demonstrated to form effective, membrane-free amperometric gas sensors. …”

Nanomaterial-based microelectrode arrays for in vitro bidirectional brain–computer interfaces: a review by Yaoyao Liu, Shihong Xu, Yan Yang, Kui Zhang, Enhui He, Wei Liang, Jinping Luo, Yirong Wu, Xinxia Cai

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Intracortical Microelectrode Array Unit Yield under Chronic Conditions: A Comparative Evaluation by Joshua O. Usoro, Brandon S. Sturgill, Kate C. Musselman, Jeffrey R. Capadona, Joseph J. Pancrazio

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A Multimodal, SU-8 - Platinum - Polyimide Microelectrode Array for Chronic In Vivo Neurophysiology. by Gergely Márton, Gábor Orbán, Marcell Kiss, Richárd Fiáth, Anita Pongrácz, István Ulbert

“…Utilization of polymers as insulator and bulk materials of microelectrode arrays (MEAs) makes the realization of flexible, biocompatible sensors possible, which are suitable for various neurophysiological experiments such as in vivo detection of local field potential changes on the surface of the neocortex or unit activities within the brain tissue. …”
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Heart rhythm in vitro: measuring stem cell-derived pacemaker cells on microelectrode arrays by Sophie Kussauer, Sophie Kussauer, Patrick Dilk, Patrick Dilk, Moustafa Elleisy, Moustafa Elleisy, Claudia Michaelis, Claudia Michaelis, Sarina Lichtwark, Sarina Lichtwark, Christian Rimmbach, Christian Rimmbach, Robert David, Robert David, Julia Jung, Julia Jung

Subjects: “…microelectrode array…”
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Alternative Post-Processing on a CMOS Chip to Fabricate a Planar Microelectrode Array by Blanca Cervantes-Sanchez, Blanca S. Soto-Cruz, Enrique Soto, Carlos Zuñiga-Islas, Johan J. Estrada-López, Francisco López-Huerta, Agustín L. Herrera-May

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Enhanced Performance of Novel Amorphous Silicon Carbide Microelectrode Arrays in Rat Motor Cortex by Pegah Haghighi, Eleanor N. Jeakle, Brandon S. Sturgill, Justin R. Abbott, Elysandra Solis, Veda S. Devata, Gayathri Vijayakumar, Ana G. Hernandez-Reynoso, Stuart F. Cogan, Joseph J. Pancrazio

Subjects: “…intracortical microelectrode arrays…”
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Time series segmentation for recognition of epileptiform patterns recorded via microelectrode arrays in vitro. by Gabriel Galeote-Checa, Gabriella Panuccio, Angel Canal-Alonso, Bernabe Linares-Barranco, Teresa Serrano-Gotarredona

“…The algorithms were validated validated against epileptiform activity induced by 4-aminopyridine in mouse hippocampus-cortex (CTX) slices and recorded via microelectrode array, as a case study. The ZdensityRODE algorithm showcased a precision and recall of 93% for ictal event detection and 42% precision for interictal event detection, while the AMPDE algorithm attained a precision of 96% and recall of 90% for ictal event detection and 54% precision for interictal event detection. …”
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Fabrication and in vivo 2-photon microscopy validation of transparent PEDOT:PSS microelectrode arrays by Gerwin Dijk, Attila Kaszas, Jolien Pas, Rodney Philip O’Connor

“…Abstract Transparent microelectrode arrays enable simultaneous electrical recording and optical imaging of neuronal networks in the brain. …”
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Functional Characterization of Human Pluripotent Stem Cell-Derived Models of the Brain with Microelectrode Arrays by Anssi Pelkonen, Cristiana Pistono, Pamela Klecki, Mireia Gómez-Budia, Antonios Dougalis, Henna Konttinen, Iveta Stanová, Ilkka Fagerlund, Ville Leinonen, Paula Korhonen, Tarja Malm

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A novel method for the fabrication of a high-density carbon nanotube microelectrode array by Adam Khalifa, Zhaoli Gao, Amine Bermak, Yi Wang, Leanne Lai Hang Chan

“…We present a novel method for fabricating a high-density carbon nanotube microelectrode array (MEA) chip. Vertically aligned carbon nanotubes (VACNTs) were synthesized by microwave plasma-enhanced chemical vapor deposition and thermal chemical vapor deposition. …”
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The burst of electrophysiological signals in the suprachiasmatic nucleus of mouse during the arousal detected by microelectrode arrays by Yiding Wang, Yiding Wang, Yilin Song, Yilin Song, Yuchuan Dai, Yuchuan Dai, Xinrong Li, Xinrong Li, Jingyu Xie, Jingyu Xie, Jinping Luo, Jinping Luo, Chao Yang, Penghui Fan, Penghui Fan, Guihua Xiao, Guihua Xiao, Yan Luo, Ying Wang, Yinghui Li, Xinxia Cai, Xinxia Cai

“…Here, we introduced a multichannel microelectrode array (MEA) for real-time detection of local field potential (LFP) and action potential (spike) in the SCN in induced torpor mice. …”
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Astrocytes induce desynchronization and reduce predictability in neuron–astrocyte networks cultured on microelectrode arrays by Barbara Genocchi, Annika Ahtiainen, Annika Niemi, Michael T. Barros, Jarno M. A. Tanskanen, Kerstin Lenk, Jari Hyttinen, Narayan Puthanmadam Subramaniyam

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Single-Cell Electrical Stimulation Using CMOS-Based High-Density Microelectrode Arrays by Silvia Ronchi, Michele Fiscella, Michele Fiscella, Camilla Marchetti, Vijay Viswam, Vijay Viswam, Jan Müller, Jan Müller, Urs Frey, Urs Frey, Andreas Hierlemann

“…Here, we investigated single-neuron current and voltage stimulation in vitro using high-density microelectrode arrays featuring 26,400 bidirectional electrodes at a pitch of 17.5 μm and an electrode area of 5 × 9 μm2. …”
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Fabrication and characterization of flexible microelectrode arrays for the long-term recording of mammalian brain slices by Frese Hanna, Kauth Andrea, Koch Henner, Ort Jonas, Ingebrandt Sven

“…Electrical in vitro long-term and repetitive measurements give insight to neural activity of more complex neural circuits and, thus, into malfunctioning caused by illness. Flexible microelectrode arrays (flexMEAs) enable the recording of neural activity with promising spatial and temporal resolution over longer durations. …”
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Carbon Nanotube-Based Printed All-Organic Microelectrode Arrays for Neural Stimulation and Recording by Tatsuya Murakami, Naoki Yada, Shotaro Yoshida

Subjects: “…microelectrode array…”
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