Parylene C films have numerous advantages. The versatility of parylene C coatings makes
them useful in a broad range of biomedical applications. The coatings are widely used …

Recent advances in the micromachining of poly (p‐xylylenes), commercially known as
Parylenes, have enabled the development of novel structures and devices for …

The persistence of intractable neurological disorders necessitates novel therapeutic
solutions. We demonstrate the utility of direct in situ electrophoretic drug delivery to treat …

The development of polymer micromachining technologies that complement traditional
silicon approaches has enabled the broadening of microelectromechanical systems (MEMS) …

The unfavourable relationship between electrical and thermal conductivity limits the choice
of solid-state materials for thermoelectric generators (TEG). Among ionic liquids (IOL), it …

Cochlear implants (CI) restore functional hearing in the majority of deaf patients. Despite the
tremendous success of these devices, some limitations remain. The bottleneck for optimal …

State of the art packaging for implantable devices uses metal or glass housings that are
reliable but limited from a miniaturisation viewpoint as well as cost-intensive. We suggest a …

State of the art packaging for long-term implantable electronic devices generally uses
reliable metal and glass housings; however, these are limited in the miniaturization potential …

Despite extensive studies for the last several decades, commercialization of silicon based
anode materials for high-capacity batteries is slow. In particular, silicon demonstrates the …

Herein, we report the nanofiltration performance of poly (p-xylylene) thin films with imidazole
side chains that were deposited onto commercial polyethersulfone ultrafiltration membranes …