In vitro assessment of long-term reliability of low-cost μΕCoG arrays
K Palopoli-Trojani, V Woods, CH Chiang… - 2016 38th Annual …, 2016 - ieeexplore.ieee.org
Micro-electrocorticographic (μECοG) electrode arrays provide a minimally invasive, high-
resolution neural interface with broad cortical coverage. Previously, we fabricated μECoG …
resolution neural interface with broad cortical coverage. Previously, we fabricated μECoG …
A low-cost, 61-channel µECoG array for use in rodents
V Woods, C Wang, S Bossi, M Insanally… - 2015 7th …, 2015 - ieeexplore.ieee.org
Micro-Electrocorticography (μECoG) offers a minimally invasive, high resolution interface
with large areas of cortex. A wide variety of μECoG designs have been developed and …
with large areas of cortex. A wide variety of μECoG designs have been developed and …
A 256-Channel Actively-Multiplexed µECoG Implant with Column-Parallel Incremental ADCs Employing Bulk-DACs in 22-nm FDSOI Technology
Electrocorticography (ECoG) recording is a non-penetrating electrophysiology technique
that achieves a good balance between spatial resolution, brain coverage and invasiveness …
that achieves a good balance between spatial resolution, brain coverage and invasiveness …
In vivo evaluation of a μECoG array for chronic stimulation
Advancements in neural interfaces capable of neural stimulation have shown that neural
implants may potentially target the central nervous system to treat neurological disorders …
implants may potentially target the central nervous system to treat neurological disorders …
24.1 A miniaturized 64-channel 225μW wireless electrocorticographic neural sensor
Substantial improvements in neural-implant longevity are needed to transition brain-
machine interface (BMI) systems from research labs to clinical practice. While action …
machine interface (BMI) systems from research labs to clinical practice. While action …
A novel flex-rigid and soft-release ECoG array
E Tolstosheeva, V Gordillo-González… - … Conference of the …, 2011 - ieeexplore.ieee.org
This article addresses a novel fabrication process for an electrocorticogram (ECoG)
electrode array. It consists of three regions: a flexible recording area, a flexible cable, and a …
electrode array. It consists of three regions: a flexible recording area, a flexible cable, and a …
A cortical recording platform utilizing μECoG electrode arrays
Clinical applications of brain implantable devices for recording and interpreting electrical
signals from the cortex have grown rapidly in the last decade. For long-term cortical …
signals from the cortex have grown rapidly in the last decade. For long-term cortical …
[HTML][HTML] Materials and devices for high-density, high-throughput micro-electrocorticography arrays
The pursuit of precisely recording and localizing neural activities in brain cortical regions
drives the development of advanced electrocorticography (ECoG) devices. Remarkable …
drives the development of advanced electrocorticography (ECoG) devices. Remarkable …
High-density, actively multiplexed µECoG array on reinforced silicone substrate
Simultaneous interrogation of electrical signals from wide areas of the brain is vital for
neuroscience research and can aid in understanding the mechanisms of brain function and …
neuroscience research and can aid in understanding the mechanisms of brain function and …
Ultra-flexible and brain-conformable micro-electrocorticography device with low impedance PEDOT-carbon nanotube coated microelectrodes
Electrocorticography, thanks to its low degree of invasiveness, has received in recent years
an increasing attention for chronic brain-machine interface applications. To be up to the task …
an increasing attention for chronic brain-machine interface applications. To be up to the task …