Researchers at Stanford have developed a technique to quantitatively measure protein structure and interactions in living cells by protein "footprinting"—monitoring the solvent accessibility of each residue under different environmental conditions.
Stanford researchers have developed a gene therapy that combines a retinal ganglion cell (RGC)- specific promoter with CRISPR gene editing to provide effective neuroprotection in optic neuropathies.
Researchers in Prof. Elizabeth Sattely's laboratory have developed a high-yield, scalable plant-based protein expression system to produce lignin-degrading enzymes for converting waste lignin into useful carbon-based platform chemicals.
Magnetic field measurements using currently available devices require complex switching circuitry to mitigate the offset and noise present in measurements.
Stanford researchers have developed a high-performance, ultrafast, thermoresponsive polymer that can act as a circuit breaker to prevent fires in next-generation high-energy-density batteries by rapidly and reversibly turning off when overheated.
Researchers at Stanford University and SLAC National Accelerator Laboratory have developed a new coating design which makes lithium metal batteries stable and promising for further development.
Stanford researchers have developed a method called KleinPAT, for creating sound models in seconds, making it cost effective to simulate sounds for many different objects in a virtual environment.
Stanford researchers have engineered an exceptionally bright, cyan-excitable orange-red fluorescent protein (CyOFP) that can be used both for multiplex imaging with GFP and for high-sensitivity, bioluminescent in vivo imaging.
Engineers in the Solgaard lab have developed a high-speed, random access grating light valve (GLV) for phase modulation to steer and focus light in LIDAR and 3D imaging applications.
Stanford researchers have designed a frequency-multiplexed neural probe architecture that enables massive scaling of electrophysiological recording from neurons.