Add to ORKGIn this paper, we present a study of the electrophysiological recording characteristics of metal elec-trodes of dimensions below 10 x 10 μm2. Electrodes with different sizes were fabricated in microelectrode arrays and characterized with respect to both noise and neuronal recording properties in order to estimate optimal electrode sizes
The application of multi-channel recording electrodes is expanding rapidly, as neuroscientists seek ...
Used clinically since Penfield and Jasper's pioneering work in the 1950's, electrocorticography (ECo...
Long-term simultaneous recording of biopotentials from many neurons is essential to the underst and ...
Advances in microfabrication technology have enabled the production of devices containing arrays of ...
Advances in microfabrication technology have enabled the production of devices containing arrays of ...
We describe fabrication methods and the characterisation and use of extracellalar microelectrode arr...
The electrophysiological observation of neurological cells has allowed much knowledge to be gathered...
Miaoetectiodes fabricated using integrated-circuit technology are shown to be suitable for extracell...
The work summarized in this thesis focuses on the recording and analysis of data from micro-ECoG arr...
In this paper we discuss the fabrication and characterization of three dimensional (3D) micro- and n...
Extracellular microelectrodes have been widely used to measure brain activity, yet there are still b...
Recently, CMOS-based microelectrode arrays containing a high-density of electrodes have emerged as a...
The viability of surgical brain implants depend on high quality electrode development and constructi...
This work was supported by funding from the European Union's Seventh Framework Programme (FP7/2007-2...
Multielectrode arrays (MEA) are used extensively for basic and applied electrophysiological research...
The application of multi-channel recording electrodes is expanding rapidly, as neuroscientists seek ...
Used clinically since Penfield and Jasper's pioneering work in the 1950's, electrocorticography (ECo...
Long-term simultaneous recording of biopotentials from many neurons is essential to the underst and ...
Advances in microfabrication technology have enabled the production of devices containing arrays of ...
Advances in microfabrication technology have enabled the production of devices containing arrays of ...
We describe fabrication methods and the characterisation and use of extracellalar microelectrode arr...
The electrophysiological observation of neurological cells has allowed much knowledge to be gathered...
Miaoetectiodes fabricated using integrated-circuit technology are shown to be suitable for extracell...
The work summarized in this thesis focuses on the recording and analysis of data from micro-ECoG arr...
In this paper we discuss the fabrication and characterization of three dimensional (3D) micro- and n...
Extracellular microelectrodes have been widely used to measure brain activity, yet there are still b...
Recently, CMOS-based microelectrode arrays containing a high-density of electrodes have emerged as a...
The viability of surgical brain implants depend on high quality electrode development and constructi...
This work was supported by funding from the European Union's Seventh Framework Programme (FP7/2007-2...
Multielectrode arrays (MEA) are used extensively for basic and applied electrophysiological research...
The application of multi-channel recording electrodes is expanding rapidly, as neuroscientists seek ...
Used clinically since Penfield and Jasper's pioneering work in the 1950's, electrocorticography (ECo...
Long-term simultaneous recording of biopotentials from many neurons is essential to the underst and ...