Published Electronics Battery Electrodes A family of materials that can be used to build batteries to meet the needs for grid-scale storage - high power, efficient, and long cycle life. By Stanford University
Published Electronics Lithium Battery Anodes A novel, pomegranate inspired, hierarchical structure which improves the energy density, cycle life, Coulombic efficiency, and cost efficiency of silicon-based anode. By Stanford University
Published Engineering Mixing Entropy Battery Overcomes the challenges of supercapacitor electrodes based on activated carbon. By Stanford University
Published Manufacturing & Production Silicon Nanowires Stanford's Materials Science department have developed a method that makes use of core-shell nanowires for improved power rate and cycling life for the lithium battery. By Stanford University
Published Electronics Transparent Energy Storage A transparent lithium-ion battery for use in fully integrated transparent and portable devices such as displays, touch screens etc. By Stanford University
Published Power & Utilities A structure for energy Stanford researchers in Professor Cui’s Laboratory have developed a transparent lithium-ion battery for use in fully integrated transparent and portable devices such as displays. By Stanford University
Published Manufacturing & Production Image Sensor Stanford researchers have patented an image sensor that overcomes frame rate and power consumption limits for high-speed mega-pixel imaging, and therefore can extend battery life. By Stanford University
Published Power & Utilities Microbial Batteries A low-cost, patented, in situ method to efficiently produce electricity from organic matter such as wastewater. By Stanford University
Published Telecommunications Wireless Energy Transmission This invention can be used to remotely power devices with no power source or to remotely recharge batteries powering electronic circuits. By Stanford University