Enhancing the Deposition Rate and Uniformity in 3D Gold Microelectrode Arrays via Ultrasonic-Enhanced Template-Assisted Electrodeposition
In the pursuit of refining the fabrication of three-dimensional (3D) microelectrode arrays
(MEAs), this study investigates the application of ultrasonic vibrations in template-assisted …
(MEAs), this study investigates the application of ultrasonic vibrations in template-assisted …
XMEA: A New Hybrid Diamond Multielectrode Array for the In Situ Assessment of the Radiation Dose Enhancement by Nanoparticles
P Nicolucci, G Gambaro, KM Araujo Silva, I Souza Lima… - Sensors, 2024 - mdpi.com
This work presents a novel multielectrode array (MEA) to quantitatively assess the dose
enhancement factor (DEF) produced in a medium by embedded nanoparticles. The MEA …
enhancement factor (DEF) produced in a medium by embedded nanoparticles. The MEA …
Fabrication of Multiheight Microneedle Electrode Array Using Combination Process of Reactive Ion Etching
KT Nam, YK Kim, SK Lee, JH Park - IEEE Sensors Journal, 2024 - ieeexplore.ieee.org
3-D electrode arrays, with heights of several m, can be placed near target areas for localized
measurements. However, their height poses challenges in regions with diverse nerve cells …
measurements. However, their height poses challenges in regions with diverse nerve cells …
Influence of Ultrasonic Bath on Mold-Assisted Electrodeposition of Gold Microelectrode Arrays
This study investigates the potential of ultrasonic baths to enhance mold-assisted
electrodeposition for fabricating three-dimensional (3D) microelectrode arrays (MEAs) with …
electrodeposition for fabricating three-dimensional (3D) microelectrode arrays (MEAs) with …
Advancing Brain Organoid Electrophysiology: Minimally Invasive Technologies for Comprehensive Characterization
M Yousuf, JC Rochet, P Singh… - Advanced Materials … - Wiley Online Library
Human brain organoids, which originate from pluripotent stem cells, serve as valuable tools
for a wide range of research endeavors, replicating brain function. Their capacity to replicate …
for a wide range of research endeavors, replicating brain function. Their capacity to replicate …
Advancing three-dimensional electrophysiology: Development and evaluation of versatile platform for tailored 3D microelectrode array fabrication
N Yadav - 2024 - iris.unitn.it
Microelectrode arrays (MEAs) are widely used tools to investigate in vitro neuronal networks
and acute brain slices. Planar or 2D MEAs have been the conventional standard for …
and acute brain slices. Planar or 2D MEAs have been the conventional standard for …