A citation-based method for searching scientific literature

Luca Berdondini, Kilian Imfeld, Alessandro Maccione, Mariateresa Tedesco, Simon Neukom, Milena Koudelka-Hep, Sergio Martinoia. Lab Chip 2009
Times Cited: 161







List of co-cited articles
717 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


High-resolution CMOS MEA platform to study neurons at subcellular, cellular, and network levels.
Jan Müller, Marco Ballini, Paolo Livi, Yihui Chen, Milos Radivojevic, Amir Shadmani, Vijay Viswam, Ian L Jones, Michele Fiscella, Roland Diggelmann,[...]. Lab Chip 2015
93
26

Multi-electrode array technologies for neuroscience and cardiology.
Micha E Spira, Aviad Hai. Nat Nanotechnol 2013
399
24

Tracking axonal action potential propagation on a high-density microelectrode array across hundreds of sites.
Douglas J Bakkum, Urs Frey, Milos Radivojevic, Thomas L Russell, Jan Müller, Michele Fiscella, Hirokazu Takahashi, Andreas Hierlemann. Nat Commun 2013
103
22

Revealing neuronal function through microelectrode array recordings.
Marie Engelene J Obien, Kosmas Deligkaris, Torsten Bullmann, Douglas J Bakkum, Urs Frey. Front Neurosci 2015
244
22

Microelectronic system for high-resolution mapping of extracellular electric fields applied to brain slices.
U Frey, U Egert, F Heer, S Hafizovic, A Hierlemann. Biosens Bioelectron 2009
113
21

A miniature microelectrode array to monitor the bioelectric activity of cultured cells.
C A Thomas, P A Springer, G E Loeb, Y Berwald-Netter, L M Okun. Exp Cell Res 1972
237
19

A 1024-Channel CMOS Microelectrode Array With 26,400 Electrodes for Recording and Stimulation of Electrogenic Cells In Vitro.
Marco Ballini, Jan Müller, Paolo Livi, Yihui Chen, Urs Frey, Alexander Stettler, Amir Shadmani, Vijay Viswam, Ian Lloyd Jones, David Jäckel,[...]. IEEE J Solid-State Circuits 2014
58
32

Intracellular recording of action potentials by nanopillar electroporation.
Chong Xie, Ziliang Lin, Lindsey Hanson, Yi Cui, Bianxiao Cui. Nat Nanotechnol 2012
291
19

Vertical nanowire electrode arrays as a scalable platform for intracellular interfacing to neuronal circuits.
Jacob T Robinson, Marsela Jorgolli, Alex K Shalek, Myung-Han Yoon, Rona S Gertner, Hongkun Park. Nat Nanotechnol 2012
290
16

CMOS nanoelectrode array for all-electrical intracellular electrophysiological imaging.
Jeffrey Abbott, Tianyang Ye, Ling Qin, Marsela Jorgolli, Rona S Gertner, Donhee Ham, Hongkun Park. Nat Nanotechnol 2017
96
15

Multiscale functional connectivity estimation on low-density neuronal cultures recorded by high-density CMOS Micro Electrode Arrays.
Alessandro Maccione, Matteo Garofalo, Thierry Nieus, Mariateresa Tedesco, Luca Berdondini, Sergio Martinoia. J Neurosci Methods 2012
34
41

Effective parameters for stimulation of dissociated cultures using multi-electrode arrays.
Daniel A Wagenaar, Jerome Pine, Steve M Potter. J Neurosci Methods 2004
183
13

Single-cell recording and stimulation with a 16k micro-nail electrode array integrated on a 0.18 μm CMOS chip.
Roeland Huys, Dries Braeken, Danny Jans, Andim Stassen, Nadine Collaert, Jan Wouters, Josine Loo, Simone Severi, Frank Vleugels, Geert Callewaert,[...]. Lab Chip 2012
46
28

A Multi-Functional Microelectrode Array Featuring 59760 Electrodes, 2048 Electrophysiology Channels, Stimulation, Impedance Measurement and Neurotransmitter Detection Channels.
Jelena Dragas, Vijay Viswam, Amir Shadmani, Yihui Chen, Raziyeh Bounik, Alexander Stettler, Milos Radivojevic, Sydney Geissler, Marie Obien, Jan Müller,[...]. IEEE J Solid-State Circuits 2017
42
30

Fully integrated silicon probes for high-density recording of neural activity.
James J Jun, Nicholas A Steinmetz, Joshua H Siegle, Daniel J Denman, Marius Bauza, Brian Barbarits, Albert K Lee, Costas A Anastassiou, Alexandru Andrei, Çağatay Aydın,[...]. Nature 2017
566
13

Intracellular recordings of action potentials by an extracellular nanoscale field-effect transistor.
Xiaojie Duan, Ruixuan Gao, Ping Xie, Tzahi Cohen-Karni, Quan Qing, Hwan Sung Choe, Bozhi Tian, Xiaocheng Jiang, Charles M Lieber. Nat Nanotechnol 2011
233
12

Electrical Responses and Spontaneous Activity of Human iPS-Derived Neuronal Networks Characterized for 3-month Culture with 4096-Electrode Arrays.
Hayder Amin, Alessandro Maccione, Federica Marinaro, Stefano Zordan, Thierry Nieus, Luca Berdondini. Front Neurosci 2016
58
20

Following the ontogeny of retinal waves: pan-retinal recordings of population dynamics in the neonatal mouse.
Alessandro Maccione, Matthias H Hennig, Mauro Gandolfo, Oliver Muthmann, James van Coppenhagen, Stephen J Eglen, Luca Berdondini, Evelyne Sernagor. J Physiol 2014
58
18

The origin of extracellular fields and currents--EEG, ECoG, LFP and spikes.
György Buzsáki, Costas A Anastassiou, Christof Koch. Nat Rev Neurosci 2012
11

Large-scale, high-resolution data acquisition system for extracellular recording of electrophysiological activity.
Kilian Imfeld, Simon Neukom, Alessandro Maccione, Yannick Bornat, Sergio Martinoia, Pierre-André Farine, Milena Koudelka-Hep, Luca Berdondini. IEEE Trans Biomed Eng 2008
55
20

Iridium oxide nanotube electrodes for sensitive and prolonged intracellular measurement of action potentials.
Ziliang Carter Lin, Chong Xie, Yasuko Osakada, Yi Cui, Bianxiao Cui. Nat Commun 2014
101
11

Three-dimensional, flexible nanoscale field-effect transistors as localized bioprobes.
Bozhi Tian, Tzahi Cohen-Karni, Quan Qing, Xiaojie Duan, Ping Xie, Charles M Lieber. Science 2010
397
11

Intracellular and Extracellular Recording of Spontaneous Action Potentials in Mammalian Neurons and Cardiac Cells with 3D Plasmonic Nanoelectrodes.
Michele Dipalo, Hayder Amin, Laura Lovato, Fabio Moia, Valeria Caprettini, Gabriele C Messina, Francesco Tantussi, Luca Berdondini, Francesco De Angelis. Nano Lett 2017
78
14

A very large-scale microelectrode array for cellular-resolution electrophysiology.
David Tsai, Daniel Sawyer, Adrian Bradd, Rafael Yuste, Kenneth L Shepard. Nat Commun 2017
51
21




In-cell recordings by extracellular microelectrodes.
Aviad Hai, Joseph Shappir, Micha E Spira. Nat Methods 2010
135
10

Large-scale recording of neuronal ensembles.
György Buzsáki. Nat Neurosci 2004
889
9

High-density electrode array for imaging in vitro electrophysiological activity.
L Berdondini, P D van der Wal, O Guenat, N F de Rooij, M Koudelka-Hep, P Seitz, R Kaufmann, P Metzler, N Blanc, S Rohr. Biosens Bioelectron 2005
55
16

An extremely rich repertoire of bursting patterns during the development of cortical cultures.
Daniel A Wagenaar, Jerome Pine, Steve M Potter. BMC Neurosci 2006
370
9

Simple model of spiking neurons.
E M Izhikevich. IEEE Trans Neural Netw 2003
958
9



Quality metrics to accompany spike sorting of extracellular signals.
Daniel N Hill, Samar B Mehta, David Kleinfeld. J Neurosci 2011
207
8


Large-scale, high-resolution electrophysiological imaging of field potentials in brain slices with microelectronic multielectrode arrays.
E Ferrea, A Maccione, L Medrihan, T Nieus, D Ghezzi, P Baldelli, F Benfenati, L Berdondini. Front Neural Circuits 2012
48
16

High-resolution multitransistor array recording of electrical field potentials in cultured brain slices.
M Hutzler, A Lambacher, B Eversmann, M Jenkner, R Thewes, P Fromherz. J Neurophysiol 2006
76
10


Dissociated cortical networks show spontaneously correlated activity patterns during in vitro development.
Michela Chiappalone, Marco Bove, Alessandro Vato, Mariateresa Tedesco, Sergio Martinoia. Brain Res 2006
227
8

Electrical Identification and Selective Microstimulation of Neuronal Compartments Based on Features of Extracellular Action Potentials.
Milos Radivojevic, David Jäckel, Michael Altermatt, Jan Müller, Vijay Viswam, Andreas Hierlemann, Douglas J Bakkum. Sci Rep 2016
27
29

Combination of High-density Microelectrode Array and Patch Clamp Recordings to Enable Studies of Multisynaptic Integration.
David Jäckel, Douglas J Bakkum, Thomas L Russell, Jan Müller, Milos Radivojevic, Urs Frey, Felix Franke, Andreas Hierlemann. Sci Rep 2017
25
32

Experimental Investigation on Spontaneously Active Hippocampal Cultures Recorded by Means of High-Density MEAs: Analysis of the Spatial Resolution Effects.
Alessandro Maccione, Mauro Gandolfo, Mariateresa Tedesco, Thierry Nieus, Kilian Imfeld, Sergio Martinoia, Luca Berdondini. Front Neuroeng 2010
25
28

Spine-shaped gold protrusions improve the adherence and electrical coupling of neurons with the surface of micro-electronic devices.
Aviad Hai, Ada Dormann, Joseph Shappir, Shlomo Yitzchaik, Carmen Bartic, Gustaaf Borghs, J P M Langedijk, Micha E Spira. J R Soc Interface 2009
75
9

Polytrodes: high-density silicon electrode arrays for large-scale multiunit recording.
Timothy J Blanche, Martin A Spacek, Jamille F Hetke, Nicholas V Swindale. J Neurophysiol 2005
159
7

Towards reliable spike-train recordings from thousands of neurons with multielectrodes.
Gaute T Einevoll, Felix Franke, Espen Hagen, Christophe Pouzat, Kenneth D Harris. Curr Opin Neurobiol 2012
107
7

In vitro microelectrode array technology and neural recordings.
Yoonkey Nam, Bruce C Wheeler. Crit Rev Biomed Eng 2011
70
10

Flexible, foldable, actively multiplexed, high-density electrode array for mapping brain activity in vivo.
Jonathan Viventi, Dae-Hyeong Kim, Leif Vigeland, Eric S Frechette, Justin A Blanco, Yun-Soung Kim, Andrew E Avrin, Vineet R Tiruvadi, Suk-Won Hwang, Ann C Vanleer,[...]. Nat Neurosci 2011
447
7

All-optical electrophysiology in mammalian neurons using engineered microbial rhodopsins.
Daniel R Hochbaum, Yongxin Zhao, Samouil L Farhi, Nathan Klapoetke, Christopher A Werley, Vikrant Kapoor, Peng Zou, Joel M Kralj, Dougal Maclaurin, Niklas Smedemark-Margulies,[...]. Nat Methods 2014
400
7

High Density Individually Addressable Nanowire Arrays Record Intracellular Activity from Primary Rodent and Human Stem Cell Derived Neurons.
Ren Liu, Renjie Chen, Ahmed T Elthakeb, Sang Heon Lee, Sandy Hinckley, Massoud L Khraiche, John Scott, Deborah Pre, Yoontae Hwang, Atsunori Tanaka,[...]. Nano Lett 2017
56
12


Co-cited is the co-citation frequency, indicating how many articles cite the article together with the query article. Similarity is the co-citation as percentage of the times cited of the query article or the article in the search results, whichever is the lowest. These numbers are calculated for the last 100 citations when articles are cited more than 100 times.