Twenty-four-micrometer-pitch microelectrode array with 6912-channel readout at 12 kHz via highly scalable implementation for high-spatial-resolution mapping of action potentials. [electronic resource]

By:

Ogi, Jun

Contributor(s):

Kato, Yuri
Matoba, Yoshihisa
Yamane, Chigusa
Nagahata, Kazunori
Nakashima, Yusaku
Kishimoto, Takuya
Hashimoto, Shigeki
Maari, Koichi
Oike, Yusuke
Ezaki, Takayuki

Producer: 20180713Description: 05F402 p. digitalISSN:

1559-4106

Subject(s):

Action Potentials
Animals
Cytological Techniques -- instrumentation
Electrodiagnosis -- instrumentation
Microelectrodes
Myocytes, Cardiac -- physiology
Rats
Spatio-Temporal Analysis

Online resources:

Available from publisher's website

In: Biointerphases vol. 12

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Twenty-four-micrometer-pitch microelectrode array with 6912-channel readout at 12 kHz via highly scalable implementation for high-spatial-resolution mapping of action potentials.

APA

Ogi J., Kato Y., Matoba Y., Yamane C., Nagahata K., Nakashima Y., Kishimoto T., Hashimoto S., Maari K., Oike Y. & Ezaki T. (20180713). Twenty-four-micrometer-pitch microelectrode array with 6912-channel readout at 12 kHz via highly scalable implementation for high-spatial-resolution mapping of action potentials. : Biointerphases.

Chicago

Ogi Jun, Kato Yuri, Matoba Yoshihisa, Yamane Chigusa, Nagahata Kazunori, Nakashima Yusaku, Kishimoto Takuya, Hashimoto Shigeki, Maari Koichi, Oike Yusuke and Ezaki Takayuki. 20180713. Twenty-four-micrometer-pitch microelectrode array with 6912-channel readout at 12 kHz via highly scalable implementation for high-spatial-resolution mapping of action potentials. : Biointerphases.

Harvard

Ogi J., Kato Y., Matoba Y., Yamane C., Nagahata K., Nakashima Y., Kishimoto T., Hashimoto S., Maari K., Oike Y. and Ezaki T. (20180713). Twenty-four-micrometer-pitch microelectrode array with 6912-channel readout at 12 kHz via highly scalable implementation for high-spatial-resolution mapping of action potentials. : Biointerphases.

MLA

Ogi Jun, Kato Yuri, Matoba Yoshihisa, Yamane Chigusa, Nagahata Kazunori, Nakashima Yusaku, Kishimoto Takuya, Hashimoto Shigeki, Maari Koichi, Oike Yusuke and Ezaki Takayuki. Twenty-four-micrometer-pitch microelectrode array with 6912-channel readout at 12 kHz via highly scalable implementation for high-spatial-resolution mapping of action potentials. : Biointerphases. 20180713.

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