The past two decades have witnessed breakthroughs in cellular‐scale bioelectronics and
their widespread applications in life sciences, creating many powerful platforms for studying …

This study presents a novel approach to improve the performance of microelectrode arrays
(MEAs) used for electrophysiological studies of neuronal networks. The integration of 3D …

High-sensitivity biomedical sensors could make it possible to detect and classify chemical
and biological species in a variety of applications, from disease diagnosis to medication …

Drug-induced cardiotoxicity arises primarily when a compound alters the
electrophysiological properties of cardiomyocytes. Features of intracellular action potentials …

The excitation-contraction dynamics in cardiac tissue are the most important physiological
parameters for assessing developmental state. We demonstrate integrated nanoelectronic …

Electroporation is a proven technique that can record action potential of cardiomyocytes and
serve for biomolecular delivery. To ensure high cell viability, micro-nanodevices cooperating …

Bone defects affect the daily activities of patients and are prevalent complications of various
skeletal disorders. The miR29 family regulates bone physiology and pathological processes …

Vertically ordered Si needles are of particular interest for long-term intracellular recording
owing to their capacity to infiltrate living cells with negligible damage and minimal toxicity …

Materials with engineered nano‐scale surface topographies, such as nanopillars,
nanoneedles, and nanowires, mimic natural structures like viral spike proteins, enabling …

Pharmaceutical compounds may have cardiotoxic properties, triggering potentially life-
threatening arrhythmias. To investigate proarrhythmic effects of drugs, the patch clamp …