Researchers in the Zhenan Bao Group and the Yi Cui Group have developed a Salt-Philic, Solvent-Phobic (SP2) Li anode polymer coating that dramatically out performs state of the art Li anode coatings/electrolyte strategies battery cycle life.
Researchers at Stanford University have developed gas diffusion layers with engineered surface roughness within the gas pathway of electrochemical devices that improves catalyst utilization.
Stanford researchers have developed a method to eliminate antibiotic resistant gram-negative bacteria in the growth arrest phase. The increase in relapsing bacterial infections and the rise of drug resistant bacteria are significant global health problems.
Stanford researchers have developed a method to activate, cryopreserve, and thaw T regulatory (Tregs) cells that preserves their viability, phenotype and function.
Active manipulation of light beams is required for a range of emerging optical technologies, including sensing, optical computing, virtual/augmented reality, dynamic holography, and computational imaging.
Researchers at Stanford University have developed Schottky contacts for aluminum nitride-based microelectronic devices. The contacts enable reliable device operation at up to 600 ºC, opening up opportunities for high temperature microelectronic performance.
Stanford researchers have identified exercise-inducible, carboxylesterase 2 (CES2) proteins, which suppress obesity in high fat diet-fed mouse models. Generally, CES2 proteins are intracellular and localized to the endoplasmic reticulum.
Stanford researchers in Zhenan Bao's Group have developed a nanomesh sensor printed directly on the hand that uses an AI-trained model to detect multiple movement types from a single sensor.
Stanford inventors have devised a method of multiplexing droplet reactions to analyze and identify many reactions in parallel on a single microfluidic chip using off-the-shelf flow control and valving.
Researchers at Stanford University have developed a novel method for the first time to generate cardiac pericytes from human induced pluripotent stem cells that closely resemble primary cells.
Stanford scientist has developed a computational method that extracts quantitative imaging features that reproducibly describe lesion phenotypes associated with treatment response and clinical outcomes in cancer.
Stanford researchers have developed a method to target and lower alpha-synuclein, a major protein constituent of Lewy bodies that accumulate in the brain in Parkinson's disease, using viral gene transfer of mutant Cas9 coupled with a small guide RNA targeting the promoter regi
Actigraphy, or the non-invasive study of human activity-rest cycles, is a field of study of growing importance as ambulatory and at-home monitoring of patients becomes more popular.
Researchers at Stanford University have established a deep learning segmentation algorithm for non-contrast CT images to aid clinicians in decision making and improve the speed of symptom to treatment in acute ischemic stroke