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View article: Ultra‐Thin Soft Pneumatic Actuation for Minimally Invasive Neural Interfacing
Ultra‐Thin Soft Pneumatic Actuation for Minimally Invasive Neural Interfacing Open
Soft‐robotic fluidic actuation allows dynamic control of the shape and position of ultra‐flexible bioelectronic implants inside the body. While several actuation approaches have been proposed, all face significant limitations preventing cl…
View article: Dynamically autofocused 3D pulsed laser micromachining enables advanced 3D bioelectronics
Dynamically autofocused 3D pulsed laser micromachining enables advanced 3D bioelectronics Open
Advancing next-generation bioelectronic interfaces requires devices that are soft, miniaturized, and seamlessly integrated with biological tissues. However, conventional fabrication methods, primarily based on UV photolithography, struggle…
View article: X‐Ray Markers for Thin Film Implants
X‐Ray Markers for Thin Film Implants Open
Implantable electronic medical devices are used in functional mapping of the brain before surgery and to deliver neuromodulation for the treatment of neurological and neuropsychiatric disorders. Their electrode arrays are assembled by hand…
Fluidic enabled bioelectronic implants: opportunities and challenges Open
Fluidics are enabling new possibilities in bioelectronic medicine and research.
Electronics with shape actuation for minimally invasive spinal cord stimulation Open
Electronics that change shape inside the body enable keyhole surgery of spinal implants that can treat severe pain.