Recent developments in microwire‐structured intracortical electrode arrays for brain–machine interfaces

Brain–machine interfaces (BMIs) have experienced remarkable advancements in recent years, marked by multiple companies initiating human trials. Consequently, the interface between the brain and electrodes has become more critical than ever, requiring implanted electrodes to be not only biocompatible and minimally invasive but also capable of remaining functioning in the brain for a lifetime. While significant progress has been made in the manufacturing of intracortical electrodes, challenges persist in ensuring longevity and minimizing tissue damage. Additionally, the reliance on manual labor in fabrication techniques poses obstacles to large‐scale production for commercialization. In this review, we explore recent breakthroughs and obstacles in the fabrication of microwire‐structured electrode arrays, wherein single wires are arranged in an xy matrix for cortical penetration. We discuss the impact of various fabrication strategies and materials on implant longevity, as well as the remaining challenges in this field.