In the era of Internet-of-things, many things can stay connected; however, biological
systems, including those necessary for human health, remain unable to stay connected to …

Engineered systems that can serve as chronically stable, high-performance electronic
recording and stimulation interfaces to the brain and other parts of the nervous system, with …

Given their durability and long‐term stability, self‐healable hydrogels have, in the past few
years, emerged as promising replacements for the many brittle hydrogels currently being …

Cardiovascular disease is the leading cause of death and has dramatically increased in
recent years. Continuous cardiac monitoring is particularly important for early diagnosis and …

Semiconductor nanowires have attracted extensive interest as one of the best-defined
classes of nanoscale building blocks for the bottom-up assembly of functional electronic and …

Continuous detection of raised intraocular pressure (IOP) could benefit the monitoring of
patients with glaucoma. Current contact lenses with embedded sensors for measuring IOP …

Biomedical electronic devices are interfaced with the human body to extract precise medical
data and to interfere with tissue function by providing electrical stimuli. In this Review, we …

Significant advances in biomaterials, stem cell biology, and microscale technologies have
enabled the fabrication of biologically relevant tissues and organs. Such tissues and organs …

Advancements in neurotechnologies for electrophysiology, neurochemical sensing,
neuromodulation, and optogenetics are revolutionizing scientific understanding of the brain …

In biointegrated electronics, the facile control of mechanical properties such as softness and
stretchability in electronic devices is necessary to minimize the perturbation of motions …