Implantable neural interfacing devices have added significantly to neural engineering by
introducing the low-frequency oscillations of small populations of neurons known as local …

The development of implantable neuroelectrodes is advancing rapidly as these tools are
becoming increasingly ubiquitous in clinical practice, especially for the treatment of …

The past two decades have seen unprecedented progress in the development of novel
materials, form factors, and functionalities in neuroimplantable technologies, including …

Neural interfaces are bioelectronic devices capable of stimulating a population of neurons or
nerve fascicles and recording electrical signals in a specific area. Despite their success in …

Highlights•Bio-integrative strategies promote neural tissue-device integration.•Surface
modifications camouflage the surface and promote neuron attachment.•Drug delivery …

The aim of this review is to present a comprehensive overview of the feasibility of using
transparent neural interfaces in multimodal in vivo experiments on the central nervous …

The growing clinical demand for electrical stimulation-based therapies requires the
development of novel conductive biomaterials that balance conductivity, biocompatibility …

The implantable neural probe is an indispensable tool to record the high-quality spike
signals. However, the high interface impedance of electrode-tissue and severe tissue …

Penetrating neural interface, which collects the neural electrophysiological signal and
serves as a key component in brain-computer interface, has drawn great attention recently …

Within the neural engineering field, next-generation implantable neuroelectronic interfaces
are being developed using biologically-inspired and/or biologically-derived materials to …