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 at the Moerner Lab have designed a family of point spread functions (PSFs), the Tetrapod PSFs, for high precision three-dimensional position measurement of individual particle positions over a large, customizable depth range in optical microscopy.
Stanford researchers have developed a new strategy for designing, making and collecting data from a passive (non-powered), flexible pressure sensor for intra-cranial pressure (ICP) monitoring at the optimal Ghz frequencies for wireless transmission in biological tissues.
Stanford researchers have developed a wearable, flexible, high sensitivity pressure sensor that provides information about cardiovascular health, emotional state, and other aspects of human physiology.
Researchers in Dr. Michael Lin's lab have developed a fluorescent voltage sensor for non-invasive optical monitoring of electrical events in living cells in vitro and in vivo.
Stanford researchers are using nanowires (NWs) to raise the performance of organic solar cells. Organic solar cells' main weakness is their lack of efficiency compared to in-organic solar cells.