An analysis of the largest publicly available collection of scanning electron microscopy images of explanted multielectrode arrays reveals that electrolytic lesioning causes no significant additional ...

What Is the CL1 and How Is It Built? The CL1 is Cortical Labs’ latest commercial platform: a compact unit that maintains a human neuronal culture on a microelectrode array (MEA). The configuration ...

Article subjects are automatically applied from the ACS Subject Taxonomy and describe the scientific concepts and themes of the article. In this review, we present critical discussions on various MEMS ...

Recording neural signals from delicate autonomic nerves is a challenging task that requires the development of a low-invasive neural interface with highly selective, micrometer-sized electrodes. This ...

Technology to restore the ability to communicate in paralyzed persons who cannot speak has the potential to improve autonomy and quality of life. An approach that decodes words and sentences directly ...

Neuroscience research into how complex brain functions are implemented at an extra-cellular level requires in vivo neural recording interfaces, including microelectrodes and read-out circuitry, with ...

Same-electrode stimulation and recording with high spatial resolution, signal quality, and power efficiency is highly desirable in neuroscience and neural engineering. High spatial resolution and ...

Neural interfaces are components that may ‘read out’ or ‘write in’ electrophysiological information directly from/to the nervous system. Their broad use spans from fundamental neuroscience to clinical ...

Article subjects are automatically applied from the ACS Subject Taxonomy and describe the scientific concepts and themes of the article. Over the past decade, technological advances in the field of ...

Reservoir computing is a machine learning paradigm that exploits the transient dynamics of high-dimensional nonlinear systems. Although it was originally inspired by the mammalian brain and widely ...