Since we are able to use 3D printers, producing porous metal scaffolds become very easy.
Contrary to usual methods, 3D printing of porous scaffolds is determined by a controllable …

The desirable implantable neural interfaces can accurately record bioelectrical signals from
neurons and regulate neural activities with high spatial/time resolution, facilitating the …

Insertion of a microelectrode into the brain to record/stimulate neurons damages neural
tissue and blood vessels and initiates the brain's wound healing response. Due to the large …

We developed a nanoparticle base layer technology capable of maintaining the bioactivity of
protein-based neural probe coating intended to improve neural recording quality. When …

Implantable bioelectrodes enable precise recording or stimulation of electrical signals with
living tissues in close contact. However, their performance is frequently compromised owing …

Microelectrode arrays for neural recording suffer from low yield and stability partly due to the
inflammatory host responses. A neuronal cell adhesion molecule L1 coating has been …

Seamless neural interfaces conjoining neurons and electrochemical devices hold great
potential for highly efficient signal transmission across neural systems and the external …

Neuroprosthetic devices that record and modulate neural activities have demonstrated
immense potential for bypassing or restoring lost neurological functions due to neural …

The neuroinflammatory response that is elicited after spinal cord injury contributes to both
tissue damage and reparative processes. The complex and dynamic cellular and molecular …

Objective To successfully insert a microprobe into the brain, it must be stiff enough to tolerate
the penetration force. In contrast, due to the brain micromotion during the use of the …