In March we featured a technology from a fellow national laboratory. You will hear about a new portable point of care diagnostics platform to run multiple assays in minutes from a single drop of blood or other bodily fluids.
You will hear about an innovative new deposition technique for creating high performance protective coating with unparalleled interface strengths and corrosion resistance. This technology won a <a href="http://www.rdmag.com/award-winners/2012/08/corrosion-resistance-achieve… R&D 100 Award</a>.
You will hear about LLNL's capability developed around adaptive optics technology. Specifically, a retinal imaging application will be highlighted and you will be introduced to its ability to be used in a number of market applications.
You will hear about an exciting LLNL capability enabled by advanced optical imaging and image processing techniques.
You will hear about a prototype desalination technique that betters conventional capacitive deionization methods as well as reverse osmosis.
You will hear about a patented LLNL optical diagnostic microscope design that can provide real-time imaging for tissue pathology and many other market applications.
You will hear about a device developed at LLNL that creates a new mechanism for energy harvesting. Harvesting electrical energy from chemical molecules enables a host of application areas.
You will hear about an LLNL developed high-efficiency filter made from ceramic materials in a metal housing. The filters are scalable and can be engineered for myriad commercial applications.
You will hear about a research program in persistent surveillance. To identify terrorist activity and behavior, Livermore researchers have developed a data-processing pipeline that combines graphics-based computer hardware and clever software to extract meaning from wide-area overhead surveillance video.
You will hear about a novel and well-tested design of a cryogenic tank for hydrogen storage in vehicles.
You will hear about cutting edge micromanufacturing techniques being developed and the novel engineered materials they enable.
You will hear about ultra wide band technology that can image objects buried underground and can "see" through walls.
You will hear about LLNL's computational capabilities in aerodynamic drag reduction for medium and heavy trucks.
November marked the first technology presentation from a fellow Department of Energy National Laboratory.
You will hear about LLNL&aops;s work in building medical sensing capabilities to enable better trauma and critical care in austere environments.