Although organic thin film transistors (OTFTs) made from organic semiconductors are valued for their transparency, flexibility and low cost attributes, their sluggish response time due to slow carrier mobility limits their applications.
Stanford researchers have developed an ultrafast multi-foci two-photon microscope system that aims at 1 kHz full frame rate with 500x500 ?m2 field of view (FOV). It utilizes a 2D foci-array pattern and 1D scanning mechanism to achieve full FOV excitation coverage.
An interdisciplinary team of Stanford researchers have developed MagSweeper, a patented robotic liquid biopsy device that efficiently isolates and purifies live CTCs (circulating tumor cells) from blood while removing 100% of contaminating blood cells.
Stanford researchers have developed a simple and effective method to sort semiconducting from metallic single walled carbon nanotubes (SWNT). This scalable technique uses semiconducting polymers to wrap around individual semiconducting SWNTs dispersed in a solution.
Researchers in Dr. Leonore Herzenberg's lab at Stanford have developed this technology and another (see Stanford Docket S15-009) to improve the ease and accuracy of flow cytometry experiments.
Stanford researchers successfully purified highly enriched semiconducting single-walled carbon nanotubes (SWNT) free of any dispersing agent via an easy, fast and scalable method.
Researchers in Dr. Leonore Herzenberg's lab at Stanford University have developed a portfolio of data management, storage, and analysis technologies that may be used for large data sets.
Stanford researchers at the Shenoy Lab have tested a method that can detect and predict the outcome of brain machine interface (BMI) tasks using motor cortical brain activity.
Researchers in Dr. Karl Deisseroth's lab have engineered a channelrhodopsin variant that can be stimulated by red light and has fast stimulation frequencies. In neurons, channelrhodopsins are light activated protein channels that induce action potential firing.
A team of Stanford and MIT researchers developed a perovskite/silicon multijunction solar cell designed to surpass the photovoltaic efficiency limits of silicon while utilizing existing manufacturing capabilities.
Stanford researchers have developed an elastomer polymer dielectric for high performance transistors with both high gain and high transconductance, which also shows unprecedented high bias-stress stability in air and water.