Confined fluids and electrolyte solutions in nanopores exhibit rich and surprising physics
and chemistry that impact the mass transport and energy efficiency in many important …

Flexible and stretchable bioelectronics provides a biocompatible interface between
electronics and biological systems and has received tremendous attention for in situ …

Neuromorphic computing could address the inherent limitations of conventional silicon
technology in dedicated machine learning applications. Recent work on silicon-based …

Undoped, conjugated, organic molecules and polymers possess properties of
semiconductors, including the electronic structure and charge transport, which can be …

The nervous system poses a grand challenge for integration with modern electronics and
the subsequent advances in neurobiology, neuroprosthetics, and therapy which would …

Soft ionic conductors have enabled stretchable and transparent devices, but liquids in such
devices tend to leak and evaporate. In this study, we demonstrate diodes and transistors …

The electronics surrounding us in our daily lives rely almost exclusively on electrons as the
dominant charge carrier. In stark contrast, biological systems rarely use electrons but rather …

Ion transport and regulation are fundamental processes for various devices and applications
related to energy storage and conversion, environmental remediation, sensing, ionotronics …

Real-time processing and manipulation of biological signals require bioelectronic devices
with integrated components capable of signal amplification, processing, and stimulation …

On-site signal amplification for bioelectronic sensing is a desirable approach to improving
recorded signal quality and to reducing the burden on signal transmission and back-end …