Robots will need sensory skins to safely interact with humans and navigate more complex environments than factory work cells. This invention is a new stretchable pneumatic sensor skin that can feel its surroundings and reach for objects in constrained environments.
Researchers at Stanford University have developed a rapid and sensitive bioluminescent assay for screening bacterial infections using enzyme-produced photo emission for detection of beta lactamase activity.
Multiplexed analysis of biological components is critical for classifying molecular subtypes of heterogeneous tumors to provide patient-specific therapies.
Stanford researchers in the Kanan group have developed a electrolysis cell for generating and extracting liquid and gas product streams from CO and CO2.
Researchers at Stanford University have discovered an invention to reverse tumor-induced CAR-T cell and CD8+ T cell exhaustion with administration of annexin V.
Stanford researchers have developed a multi-omics method for predicting the strength and durability of immune responses to vaccines shortly after vaccination. The COVID-19 pandemic was a grave demonstration of the threat pandemics pose to global public health.
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.
Stanford researchers have developed new Fast Quick Error Detection (Fast QED) tests that are four orders of magnitude faster than standard QED tests while also preserving quick error detection properties.
Stanford researchers have developed new Fast Quick Error Detection (Fast QED) tests that are four orders of magnitude faster than standard QED tests while also preserving quick error detection properties.