Prototype Smart Nanobattery Based on Lithium Chemistry getting Closer

AlwaysReady, Inc., a new subsidiary of mPhase Technologies, Inc., said that it is making good progress in its research and development effort as part of the recently awarded grant from the U.S. Army to develop a prototype of its Smart Nanobattery based on lithium chemistry that is compatible with silicon based processing steps.

The new prototype, based on lithium and manganese dioxide chemistry would be able to retain all of the beneficial properties of the first generation of the Smart Nanobattery's earlier design, which can remain dormant for long periods of time, providing for very long shelf life applications, and be activated on demand, providing for unique power management capabilities.

"These lithium manganese dioxide prototypes, providing 3.0 volts per cell, would allow us to make our Smart Nanobattery work for more power hungry applications than possible using less aggressive alkaline based chemistry of our first generation design," said Dr. Fred Allen, Chief Executive Officer, AlwaysReady, Inc. "Higher voltage and improved energy density means a broader market size for our upcoming technology," Dr. Allen concluded. Lithium based batteries provide better power densities and voltage characteristics in smaller footprints than alkaline designs.

The new Smart Nanobattery architecture promises an energy source that can be packaged in various configurations, with shelf life lasting decades, yet still able to be activated on demand. Various battery designs based on this technology may deliver a new and unique component for system design across many fields, including powering RFID sensors, as well as defense, industrial and consumer electronics devices.

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