Optimizing the fabrication of a 3D high-resolution implant for neural stimulation
Background Tissue-integrated micro-electronic devices for neural stimulation hold great
potential in restoring the functionality of degenerated organs, specifically, retinal prostheses …
potential in restoring the functionality of degenerated organs, specifically, retinal prostheses …
SU‐8 2000 rendered cytocompatible for neuronal bioMEMS applications
VN Vernekar, DK Cullen, N Fogleman… - … Research Part A: An …, 2009 - Wiley Online Library
Microfabrication advances have resulted in small, cheap, and precise devices for biological
microelectromechanical systems (bioMEMS). SU‐8/SU‐8 2000 is an attractive material for …
microelectromechanical systems (bioMEMS). SU‐8/SU‐8 2000 is an attractive material for …
Surface modification strategies for fabrication of nano-biodevices: A critical review
Recent advances in the field of nanotechnology have led to a considerable progress in the
domain of engineered molecular interactions which has resulted in the emergence of nano …
domain of engineered molecular interactions which has resulted in the emergence of nano …
Surface Modification Strategies for Fabrication of Nano‐Biodevices
Recent advances in the field of nanotechnology have led to a considerable progress in the
domain of engineered molecular interactions which has resulted in the emergence of nano …
domain of engineered molecular interactions which has resulted in the emergence of nano …
[PDF][PDF] Fabrication of a 3D high-resolution implant for neural stimulation-challenges and solutions
Background-Tissue-integrated micro-electronic devices for neural stimulation hold a great
potential in restoring the functionality of degenerated organs, speci cally, retinal prostheses …
potential in restoring the functionality of degenerated organs, speci cally, retinal prostheses …