MRI‐Compatible, Transparent PEDOT:PSS Neural Implants for the Alleviation of Neuropathic Pain with Motor Cortex Stimulation

Abstract: Simultaneous monitoring of electrophysiology and magnetic resonance imaging (MRI) could guide the innovative diagnosis and treatment of various neurodegenerative diseases that are previously impossible. However, this technique is difficult because the existing metal‐based implantable neural interface for electrophysiology is not free from signal distortions from its intrinsic magnetic susceptibility while performing an MRI of the implanted area of the neural interface. Moreover, brain tissue heating from neura… Show more

“…The key determinant of the electrical conductivity of stretchable conductors is the intrinsic conductivity of the filler material . Among various types of conductive fillers including carbon-based, − polymer-based, − and metal-based − materials, metal-based conductive fillers have gained significant attention in the field of stretchable conductors due to their high intrinsic conductivity. Metals in their nanoscale form present flexible and lightweight properties compatible with soft bioelectronics, instead of their traditional counterparts with bulky rigid and heavy properties .…”

Next-Generation Cardiac Interfacing Technologies Using Nanomaterial-Based Soft Bioelectronics

“…The key determinant of the electrical conductivity of stretchable conductors is the intrinsic conductivity of the filler material . Among various types of conductive fillers including carbon-based, − polymer-based, − and metal-based − materials, metal-based conductive fillers have gained significant attention in the field of stretchable conductors due to their high intrinsic conductivity. Metals in their nanoscale form present flexible and lightweight properties compatible with soft bioelectronics, instead of their traditional counterparts with bulky rigid and heavy properties .…”

Next-Generation Cardiac Interfacing Technologies Using Nanomaterial-Based Soft Bioelectronics

“… 10 , 13 Photoelectric artifact caused by a neural electrode refers to a small voltage signal by excited free charges when light above a certain energy level is applied to the surface of the metal electrode. 14 , 15 When this voltage signal combines with the small electrophysiological potential from the neural activity, results in contamination of the neural signals. 14 , 16 Additionally, opaque metal electrodes absorb most of the light for neuromodulation, preventing sufficient energy needed for optogenetics from reaching the brain tissue.…”

Integration of in vivo electrophysiology and optogenetics in rodents with PEDOT:PSS neural electrode array

Monolayer, open-mesh, pristine PEDOT:PSS-based conformal brain implants for fully MRI-compatible neural interfaces