Stanford researchers have designed a capacitively coupled electrostatic device (CCED) for measuring high voltage. The CCED is compact, low cost, safe, easy to use, accurate, and actively calibrated.
Researchers at Stanford have developed a cloud-based behind-the-meter (BTM) system that can cut energy costs and reduce reliance on the grid close to 93% respectively.
The Stanford team has developed a method to dynamically control the topography of nano-scale surfaces using soft, responsive polymers, enabling new ways to actively shape the spectral, angular and polarization properties of light in response to electrical and chemical stimuli
Stanford researchers in the Blau Lab have discovered that telomere length can be used as a biomarker for cardiomyopathy diagnosis and drug screening with cardiomyocytes.
Stanford inventors have developed technologies for improved islet transplantation using a bioscaffold platform that maintains islet health during and after their transplantation.
Stanford inventors have developed technologies for improved islet transplantation using a bioscaffold platform that maintains islet health during and after their transplantation.
Stanford researchers have developed easyBAT, a simplified solution integrating a microfluidic sample preparation device with a fully automated analysis pipeline for rapid, accurate and accessible solution for food allergy diagnosis at the point-of-care.
Stanford researchers have developed a novel blood-based diagnostic platform that leverages circulating bacteriophage DNA (phage cfDNA) to enable sensitive and highly specific detection of both overt and subclinical bacterial infections, while effectively discriminating them fr
Researchers in Prof. Karl Deisseroth's laboratory have combined optogenetics with functional magnetic resonance imaging (fMRI) to enable highly specific in vivo analysis of brain circuits.
Stanford researchers developed a novel flexible smart bandage capable of delivering precise electrical stimulation as part of an early response to wound infections.
Stanford inventors have developed a mobile thermoelectric device designed to preserve organs during transit by maintaining 10°C (+/-1°C) for over 6 hours.
Stanford doctors have developed an innovative left ventricular decompression vent with multiple-channels design that significantly enhances blood removal during cardiac surgery.
Stanford researchers at the Bao Research Group have developed a second-generation stretchable multi-sensor tag technology for detecting physiological signals.