Nanomedicine‐enabled/augmented ultrasound (US) medicine is a unique area of
interdisciplinary research that focuses on designing and engineering functional …

Bioelectricity provides electrostimulation to regulate cell/tissue behaviors and functions. In
the human body, bioelectricity can be generated in electromechanically responsive tissues …

Electrical stimulation has shown great promise in biomedical applications, such as
regenerative medicine, neuromodulation, and cancer treatment. Yet, the use of electrical …

Smart or stimuli-responsive materials are an emerging class of materials used for tissue
engineering and drug delivery. A variety of stimuli (including temperature, pH, redox-state …

The emerging field of implantable bioelectronics has attracted widespread attention in
modern society because it can improve treatment outcomes, reduce healthcare costs, and …

Wireless energy harvesting represents an emerging technology that can be integrated into a
variety of systems for biomedical, physical, and chemical functions. The miniaturization and …

Electrical stimulation for delivery of biochemical agents such as genes, proteins and RNA
molecules amongst others, holds great potential for controlled therapeutic delivery and in …

With the growing prevalence of cardiovascular diseases, developing applicable vascular
patches has become a pressing issue. In this work, we used layer-by-layer (LbL) self …

Ultrasound‐powered implants (UPIs) represent cutting edge power sources for implantable
medical devices (IMDs), as their powering strategy allows for extended functional lifetime …

Responsive biohybrid systems have the potential to overcome limitations of both natural and
artificial machines in terms of efficiency, accuracy, and functionality. As functional units …