PARC is developing a commercially viable approach to making carbon- neutral liquid fuel from sunlight and seawater that has the potential to be cost-effective, scalable, efficient, and, most important, realizable within the existing fuel infrastructure.
The increasing costs and environmental impact of electric power generation are changing the way we view power consumption. It is now far more important for customer loads to be flexible and effective in their power use and to better match their consumption to the availability and quality of power on the grid. These fundamental shifts in the electric power landscape are leading to tremendous business opportunities.
PARC is modeling people’s behavior in social systems to develop solutions that enhance the usability and value of social analytics and collaboration systems.
For several years there have been many efforts to employ ink jet technologies in the fabrication of consumer electronics. The potential of displacing large and expensive pieces of electronic fabrication equipment and processes with seemingly appropriately scaled inexpensive alternatives is attractive. However, of course, the devil is in the details. Feature size, accuracy, registration, and materials all have several impacts on design rules, processing, performance, and the types of devices appropriate to the technology. Here we present a look at some of the materials and deposition challenges along with solutions developed at PARC.
PARC offers a proven co-extrusion priting technique, CoEx, that can enhance both the energy and power densities of batteries. A cost-effective way to manufacture structured electrodes, this technique can be applied to both cathodes and anodes for most mature batter chemistries.