Stanford researchers have demonstrated the application of pulsed Focused Ultrasound (pFUS), to non-invasively enhance the function and engraftment of pancreatic islets following transplantation.
Researchers at Stanford have developed a wearable, low-cost device that provides intermittent vessel hemodynamics measurement. This technology won a KidneyX prize and may improve the health of end stage renal disease patients.
Machine learning models currently require extensive computational resources and this demand is growing rapidly with new models and applications being introduced.
The Hong Neurotechnology Lab at Stanford University developed ultrasound-activated nanoscopic light emitters (mechanoluminescent nanoparticles) that are delivered via the blood stream, unlike conventional optogenetics approaches that require invasive fiber optic implants.
A team of Stanford researchers has developed ReMatch, an efficient, data-driven DER (distributed energy resources) planning and decision support framework that accounts for a range of complexities to optimize energy resource planning.
Stanford researchers at the Vuckovic Lab have developed a full chip-scale integration of a Ti:Sapphire laser system which dramatically reduces the size, cost, and power consumption by many orders of magnitude, compared to today's state-of-the-art systems which are bulky and ex
Researchers at Stanford have developed agents to enhance the therapeutic efficacy of a variety of anti-cancer therapeutics. Cell loss by apoptosis occurs in normal development and in tumor environments.
Researchers in Prof. A.C. Matin's laboratory have developed a versatile exosome (extracellular vesicle, "EV") drug delivery platform that can selectively target therapeutic agents to tumors or other tissues that overexpress extracellular receptors.
Stanford researchers have developed a low cost, safe, environmentally friendly, rechargeable Zn/MnO2 flow battery with the potential for grid scale energy storage.
Researchers in Dr. Mark Kay's lab have developed a patented approach to inducing apoptosis that could represent a new strategy against cancer and other diseases.
This bandage-like multi-lead, continuous ECG monitoring device uses new stretchable electrode material developed in the Bao group to accurately and imperceptibly diagnose cardiac arrhythmia.