Stanford researchers in the Khuri-Yakub Ultrasonics Group have developed a powerful new bio-sensor platform technology for a highly sensitive non-invasive detection of molecules and particles, suitable for various types of point of care diagnostic tests.
Stanford researchers at the Jaramillo, Nørskov, and Cargnello Labs have developed an improved system to generate NH3 (ammonia) from N2 and H2O via a low-pressure, electro-thermochemical, sustainable alternative to the conventional Haber-Bosch p
Richard Zare's lab at Stanford University has developed a ground-breaking drug release system in which injected medication can be controlled externally with excellent spatial, temporal, and dosage control.
Researchers in Dr. Richard Zare's lab have developed solid lipid nanoparticles (SLNPs) that provide sustained in vivo delivery of small interfering RNAs (siRNAs). siRNAs can silence genes responsible for disease, which makes them promising tools for gene therapy.
A Stanford researcher leverages common wafer manufacturing processes to optimize the performance of photonic bandgap (PBG) crystals for a variety of applications.
Stanford researchers have designed a powerful plasmonic coaxial aperture as a low-power optical trap for nanosized specimens, a regime that is inaccessible with the other designs.
Stanford researchers have developed a novel tomographic technique, cathodoluminescence (CL) spectroscopic tomography, to probe optical properties in 3D with nanometer-scale spatial and spectral resolution.
Stanford University and Samsung researchers have patented a microfluidic-based platform that can rapidly fabricate and characterize Organic Thin Film Transistor (OTFT) arrays composed of solution-processable organic semiconducting polymers.
Stanford inventors have developed a method that allows for simultaneous 3D imaging with high resolution by using a multifunctional metalens to replace the conventionally used microlens array in light-field imaging.
An interdisciplinary team of Stanford University researchers have developed a novel interpenetrating polymer network hydrogel that is useful for a wide variety of medical, industrial and personal hygiene applications.
W.E. Moerner and Adam Cohen have patented the Anti-Brownian ELectrokinetic trap (ABEL trap) which can trap, measure, and manipulate sub-micron objects (e.g. single molecules) in solution at ambient temperature.
A team of Stanford engineers have developed a fast adaptive optics system for scanning, 3D imaging and sensing with a small (50 µm) multimode fiber (MMF).