Stanford researchers at the Yi Cui Lab have demonstrated a new method to increase stability of lithium battery interfaces via stitching of two-dimensional atomic crystals by atomic layer deposition (ALD) which provides an innovative way to prepare chemically and mechanically s
Engineers in Prof. Yi Cui's laboratory have developed a high-performance, stretchable lithium-ion battery designed to provide long-term, stable power to wearable and flexible electronics.
Stanford researchers have developed SCOA-DUPI (Simulation-based Control Optimization Algorithm with Dynamic Uncertain Parameter Inversion), which relies on real-time data collected though embedded sensors that can be used to ease the operational challenges of Managed Aquifer R
Stanford researchers have developed protective padding that reduces linear and rotational acceleration of the head during a collision, to minimize concussions.
Stanford Researchers have patented a method and apparatus for detecting ionizing radiation, that, if successful, would achieve a coincidence time resolution 100x better than current positron emission tomography (PET) detectors.
Researchers in Prof. Mark Cutkosky's laboratory have developed gloves with customized patterns of sticky (dry adhesive) and non-sticky areas to assist the wearer with lifting and handling smooth heavy objects, particular those with a tacky coating.
Stanford researchers have developed an architecture and control scheme for the coordination of distributed energy resources (DER), such as solar and storage, to minimize operation cost, enhance network reliability, and provide DER aggregation.
Stanford researchers patented a capacitive micromachined ultrasonic transducer (CMUT) with a pressurized cavity for use in environments with extreme pressure variations.
Researchers in Professor Zhenan Bao's group at Stanford University have developed capacitive tactile sensors used to detect static and dynamic forces with varying magnitudes and directions.
Researchers in Prof. Karl Deisseroth's laboratory have engineered a cytosolic, red genetically encoded calcium indicator (GECI) with high signal change at single cell resolution.
Stanford researchers have patented a new method for Compressed Sensing (CS) which reconstructs signals and images from significantly fewer measurements than current standards while maintaining high reconstruction accuracy.
Stanford researchers at the Rao Lab have developed apoptosis imaging probes with an improved new molecular structure enabling high sensitivity and stability with better performance in vivo.
Stanford researchers have patented an automated method for generating articulated human models consisting of both morphological and kinematic model data.
Stanford researchers have patented a data-driven method for building a human shape model that spans variation in both subject shape and pose. The method is based on a representation that incorporates both articulated and non-rigid deformations.