Year |
Citation |
Score |
2019 |
Bullmann T, Radivojevic M, Huber ST, Deligkaris K, Hierlemann A, Frey U. Large-Scale Mapping of Axonal Arbors Using High-Density Microelectrode Arrays. Frontiers in Cellular Neuroscience. 13: 404. PMID 31555099 DOI: 10.3389/Fncel.2019.00404 |
0.699 |
|
2019 |
Viswam V, Obien MEJ, Franke F, Frey U, Hierlemann A. Optimal Electrode Size for Multi-Scale Extracellular-Potential Recording From Neuronal Assemblies. Frontiers in Neuroscience. 13: 385. PMID 31105515 DOI: 10.3389/Fnins.2019.00385 |
0.389 |
|
2019 |
Obien MEJ, Frey U. Large-Scale, High-Resolution Microelectrode Arrays for Interrogation of Neurons and Networks. Advances in Neurobiology. 22: 83-123. PMID 31073933 DOI: 10.1007/978-3-030-11135-9_4 |
0.427 |
|
2019 |
Ronchi S, Fiscella M, Marchetti C, Viswam V, Müller J, Frey U, Hierlemann A. Single-Cell Electrical Stimulation Using CMOS-Based High-Density Microelectrode Arrays. Frontiers in Neuroscience. 13: 208. PMID 30918481 DOI: 10.3389/Fnins.2019.00208 |
0.375 |
|
2019 |
Obien MEJ, Hierlemann A, Frey U. Accurate signal-source localization in brain slices by means of high-density microelectrode arrays. Scientific Reports. 9: 788. PMID 30692552 DOI: 10.1038/S41598-018-36895-Y |
0.361 |
|
2019 |
Mita T, Bakkum D, Frey U, Hierlemann A, Kanzaki R, Takahashi H. Classification of Inhibitory and Excitatory Neurons of Dissociated Cultures Based on Action Potential Waveforms on High-density CMOS Microelectrode Arrays Ieej Transactions On Electronics, Information and Systems. 139: 615-624. DOI: 10.1541/Ieejeiss.139.615 |
0.37 |
|
2018 |
Yuan X, Hierlemann A, Frey U. Dual-mode Microelectrode Array with 20k-electrodes and High SNR for High-Throughput Extracellular Recording and Stimulation Frontiers in Cellular Neuroscience. 12. DOI: 10.3389/Conf.Fncel.2018.38.00088 |
0.306 |
|
2018 |
Ronchi S, Fiscella M, Müller J, Viswam V, Frey U, Hierlemann A. Single-Cell Electrical Stimulation with CMOS-based High-Density Microelectrode Arrays Frontiers in Cellular Neuroscience. 12. DOI: 10.3389/Conf.Fncel.2018.38.00086 |
0.31 |
|
2017 |
Jäckel D, Bakkum DJ, Russell TL, Müller J, Radivojevic M, Frey U, Franke F, Hierlemann A. Combination of High-density Microelectrode Array and Patch Clamp Recordings to Enable Studies of Multisynaptic Integration. Scientific Reports. 7: 978. PMID 28428560 DOI: 10.1038/S41598-017-00981-4 |
0.378 |
|
2017 |
Seichepine F, Rothe J, Dudina A, Hierlemann A, Frey U. Dielectrophoresis-Assisted Integration of 1024 Carbon Nanotube Sensors into a CMOS Microsystem. Advanced Materials (Deerfield Beach, Fla.). PMID 28295737 DOI: 10.1002/Adma.201606852 |
0.311 |
|
2016 |
Deligkaris K, Bullmann T, Frey U. Extracellularly Recorded Somatic and Neuritic Signal Shapes and Classification Algorithms for High-Density Microelectrode Array Electrophysiology. Frontiers in Neuroscience. 10: 421. PMID 27683541 DOI: 10.3389/Fnins.2016.00421 |
0.721 |
|
2015 |
Bullmann T, Arendt T, Frey U, Hanashima C. A transportable, inexpensive electroporator for in utero electroporation. Development, Growth & Differentiation. PMID 25988525 DOI: 10.1111/Dgd.12216 |
0.664 |
|
2015 |
Müller J, Ballini M, Livi P, Chen Y, Radivojevic M, Shadmani A, Viswam V, Jones IL, Fiscella M, Diggelmann R, Stettler A, Frey U, Bakkum DJ, Hierlemann A. High-resolution CMOS MEA platform to study neurons at subcellular, cellular, and network levels. Lab On a Chip. 15: 2767-80. PMID 25973786 DOI: 10.1039/C5Lc00133A |
0.42 |
|
2015 |
Bullmann T, Arendt T, Frey U, Hanashima C. A transportable, inexpensive electroporator for in utero electroporation Development Growth and Differentiation. 57: 369-377. DOI: 10.1111/dgd.12216 |
0.656 |
|
2014 |
Ballini M, Müller J, Livi P, Chen Y, Frey U, Stettler A, Shadmani A, Viswam V, Jones IL, Jäckel D, Radivojevic M, Lewandowska MK, Gong W, Fiscella M, Bakkum DJ, et al. A 1024-Channel CMOS Microelectrode Array With 26,400 Electrodes for Recording and Stimulation of Electrogenic Cells In Vitro. Ieee Journal of Solid-State Circuits. 49: 2705-2719. PMID 28502989 DOI: 10.1109/Jssc.2014.2359219 |
0.391 |
|
2014 |
Obien ME, Deligkaris K, Bullmann T, Bakkum DJ, Frey U. Revealing neuronal function through microelectrode array recordings. Frontiers in Neuroscience. 8: 423. PMID 25610364 DOI: 10.3389/Fnins.2014.00423 |
0.721 |
|
2014 |
Müller J, Ballini M, Livi P, Chen Y, Bakkum DJ, Radivojevic M, Frey U, Stettler A, Hierlemann A. Large-scale recording from axonal arbors of single neurons with CMOS based high-density microelectrode arrays 18th International Conference On Miniaturized Systems For Chemistry and Life Sciences, Microtas 2014. 986-988. |
0.314 |
|
2013 |
Bakkum DJ, Radivojevic M, Frey U, Franke F, Hierlemann A, Takahashi H. Parameters for burst detection. Frontiers in Computational Neuroscience. 7: 193. PMID 24567714 DOI: 10.3389/Fncom.2013.00193 |
0.339 |
|
2013 |
Bakkum DJ, Frey U, Radivojevic M, Russell TL, Müller J, Fiscella M, Takahashi H, Hierlemann A. Tracking axonal action potential propagation on a high-density microelectrode array across hundreds of sites. Nature Communications. 4: 2181. PMID 23867868 DOI: 10.1038/Ncomms3181 |
0.41 |
|
2012 |
Fiscella M, Farrow K, Jones IL, Jäckel D, Müller J, Frey U, Bakkum DJ, Hantz P, Roska B, Hierlemann A. Recording from defined populations of retinal ganglion cells using a high-density CMOS-integrated microelectrode array with real-time switchable electrode selection. Journal of Neuroscience Methods. 211: 103-13. PMID 22939921 DOI: 10.1016/J.Jneumeth.2012.08.017 |
0.381 |
|
2012 |
Jäckel D, Frey U, Fiscella M, Franke F, Hierlemann A. Applicability of independent component analysis on high-density microelectrode array recordings. Journal of Neurophysiology. 108: 334-48. PMID 22490552 DOI: 10.1152/Jn.01106.2011 |
0.42 |
|
2011 |
Dini P, Ambard M, Egert U, Frey U, Hierlemann A. High-resolution mapping of single neurons provides insight into neuron structure and LFP generation Bmc Neuroscience. 12. DOI: 10.1186/1471-2202-12-S1-P75 |
0.383 |
|
2011 |
Mita T, Bakkum D, Frey U, Hierlemann A, Kanzaki R, Takahashi H. Measurement of action potentials of dissociated cultured neurons by high density CMOS array and network analysis Neuroscience Research. 71: e414. DOI: 10.1016/J.Neures.2011.07.1813 |
0.358 |
|
2010 |
Frey U, Sedivy J, Heer F, Pedron R, Ballini M, Mueller J, Bakkum D, Hafizovic S, Faraci FD, Greve F, Kirstein KU, Hierlemann A. Switch-matrix-based high-density microelectrode array in CMOS technology Ieee Journal of Solid-State Circuits. 45: 467-482. DOI: 10.1109/Jssc.2009.2035196 |
0.35 |
|
2010 |
Bakkum DJ, Frey U, Mita T, Mueller J, Fiscella M, Takahashi H, Hierlemann A. Neuronal cellular and network analysis using a high-density 11,011-electrode CMOS array Neuroscience Research. 68: e107. DOI: 10.1016/J.Neures.2010.07.235 |
0.381 |
|
2009 |
Frey U, Egert U, Heer F, Hafizovic S, Hierlemann A. Microelectronic system for high-resolution mapping of extracellular electric fields applied to brain slices. Biosensors & Bioelectronics. 24: 2191-8. PMID 19157842 DOI: 10.1016/J.Bios.2008.11.028 |
0.379 |
|
2009 |
Bakkum D, Frey U, Hierlemann A, Takahashi H. Subcellular-resolution electronic recording and stimulation of cultured cortical networks using an 11,011 electrode CMOS array Neuroscience Research. 65: S61. DOI: 10.1016/J.Neures.2009.09.171 |
0.322 |
|
2007 |
Hafizovic S, Heer F, Ugniwenko T, Frey U, Blau A, Ziegler C, Hierlemann A. A CMOS-based microelectrode array for interaction with neuronal cultures. Journal of Neuroscience Methods. 164: 93-106. PMID 17540452 DOI: 10.1016/J.Jneumeth.2007.04.006 |
0.392 |
|
2007 |
Heer F, Hafizovic S, Ugniwenko T, Frey U, Franks W, Perriard E, Perriard JC, Blau A, Ziegler C, Hierlemann A. Single-chip microelectronic system to interface with living cells. Biosensors & Bioelectronics. 22: 2546-53. PMID 17097869 DOI: 10.1016/J.Bios.2006.10.003 |
0.354 |
|
2007 |
Greve F, Lichtenberg J, Kirstein KU, Frey U, Perriard JC, Hierlemann A. A perforated CMOS microchip for immobilization and activity monitoring of electrogenic cells Journal of Micromechanics and Microengineering. 17: 462-471. DOI: 10.1088/0960-1317/17/3/007 |
0.353 |
|
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