Designing bioelectronic devices that seamlessly integrate with the human body is a
technological pursuit of great importance. Bioelectronic medical devices that reliably and …

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 …

The high stiffness of intravenous needles can cause tissue injury and increase the risk of
transmission of blood-borne pathogens through accidental needlesticks. Here we describe …

Implantable neural interfaces for central nervous system research have been designed with
wire, polymer, or micromachining technologies over the past 70 years. Research on …

Parylene C is a promising material for constructing flexible, biocompatible and corrosion-
resistant microelectromechanical systems (MEMS) devices. Historically, Parylene C has …

Marrying electronics with biological systems has generated a broad spectrum of potent
technologies for biomedical practices, as well as an emerging field of" bioelectronics." …

Electrification is critical to decarbonizing society, but managing increasing power
densification in electrical systems will require the development of new thermal management …

Targeted delivery of neurochemicals and biomolecules for neuromodulation of brain activity
is a powerful technique that, in addition to electrical recording and stimulation, enables a …

Conformable bioelectronic systems are promising tools that may aid the understanding of
diseases, alleviate pathological symptoms such as chronic pain, heart arrhythmia, and …

To solve the problem of a single function encountered by wearable electronic devices, a
multifunctional wearable piezoelectric MEMS device is presented, which performs motion …