Neuromorphic circuits emulating the bio‐brain functionality via artificial devices have
achieved a substantial scientific leap in the past decade. However, even with the advent of …

Microelectrode arrays and microprobes have been widely utilized to measure neuronal
activity, both in vitro and in vivo. The key advantage is the capability to record and stimulate …

Investigation of neural circuit dynamics is crucial for deciphering the functional connections
among regions of the brain and understanding the mechanism of brain dysfunction. Despite …

Advanced capabilities in electrical recording are essential for the treatment of heart-rhythm
diseases. The most advanced technologies use flexible integrated electronics; however, the …

This study presents a novel approach to improve the performance of microelectrode arrays
(MEAs) used for electrophysiological studies of neuronal networks. The integration of 3D …

Studies on information processing and learning properties of neuronal networks would
benefit from simultaneous and parallel access to the activity of a large fraction of all neurons …

Digital light processing bioprinting favors biofabrication of tissues with improved structural
complexity. However, soft-tissue fabrication with this method remains a challenge to balance …

Simultaneously measuring the activities of all neurons in a mammalian brain at millisecond
resolution is a challenge beyond the limits of existing techniques in neuroscience. Entirely …

There has been a great deal of interest in the development of technologies for actively
manipulating neural networks in vitro, providing natural but simplified environments in a …

To advance our understanding of the functioning of neuronal ensembles, systems are
needed to enable simultaneous recording from a large number of individual neurons at high …