Stanford researchers at the Cui Lab have designed a self-aligned hybrid metal-dielectric surface that offers unparalleled performance in applications where both a transparent contact and a photon management texture are needed.
Stanford engineers have developed and tested a nanostructured thin film material that upconverts infrared to visible light and combines electrical and non-linear optical properties in the same layer.
Stanford researchers have patented a hardware and software system designed for automated assisted steering that combines automated and human vehicle control within driving lanes.
Stanford engineers have developed a patented algorithm that improves search results from ranking the objects of a database when viewed as a graph (e.g. a web graph).
Stanford researchers have designed a method to increase the photoyield of thin film CsBr/metal photocathodes by activation with electron bombardment, allowing efficient operation at UV and longer incident light wavelengths.
Stanford researchers have invented a fully water-soluble, orange hydrazine sensor that can robustly quantify the toxin hydrazine in liquids such as drinking water, waste water (treated and untreated), and bodily fluids.
Researchers in Prof. Irving Weissman's laboratory have developed cell culture techniques to rapidly and efficiently derive pure populations of mesodermal cells from human pluripotent stem cells (hPSCs).
Researchers in Dr. Jianghong Rao's lab have developed nanoprobes for monitoring drug-induced hepatotoxicity in vivo in real time. Drug toxicity is a long-standing concern of modern medicine.
Engineers at Stanford University have developed a technique for producing piezoelectric graphene that could be used to create two-dimensional “straintronic” materials for powering or controling nanoscale devices.
Engineers in Prof. Anthony Kovscek's laboratory have developed a patented, dual-function core holder apparatus that can be used in enhanced oil recovery (EOR) experiments to both saturate the core and perform spontaneous imbibition analysis.
Stanford researchers developed a single plasmid reprogramming system called CoMiP carrying codon optimized sequences of the canonical reprogramming factors (OKSM) and short hairpin RNA against p53.
Researchers at Stanford have engineered proteins to selectively sensitize T cells to IL-2. The ability to manipulate immune cells for therapeutic use is of great clinical interest. Cytokines are signaling molecules that can be used to alter cellular behavior.