The drop can be engineered to occur upon variety of stimuli voltage, RF andor others. The video illustrates in laymans terminology some fundamental concepts behind the smart nano battery. These tubes provide Superhydrophobic NanoStructured Surface atop of which can be placed droplet. Source mPhase . The image is representative example of nanograss tubes. The prototype battery is based on discovery that liquid droplets of electrolyte will stay in dormant state atop nanotextured surfaces until stimulated to flow, thereby triggering reaction producing electricity.

Source mPhase . The video illustrates in laymans terminology some fundamental concepts behind the smart nano battery. The prototype battery is based on discovery that liquid droplets of electrolyte will stay in dormant state atop nanotextured surfaces until stimulated to flow, thereby triggering reaction producing electricity. These tubes provide Superhydrophobic NanoStructured Surface atop of which can be placed droplet. The company has proven it is possible to fabricate nanotechbased smart batteries, which can store reserve power for decades and generate electric current virtually on demand.

Source mPhase . The drop can be engineered to occur upon variety of stimuli voltage, RF andor others. The image is representative example of nanograss tubes. mPhase Technologies, the company behind nanotechnologyenabled battery with unlimited shelf life, has posted video demonstration of its Smart Nanobattery on the YouTube website. This effect can permit precise control and activation of the batteries when required Technical background battery depends upon chemical reaction. The video illustrates in laymans terminology some fundamental concepts behind the smart nano battery.

The droplet sits above the tubes with little or no interaction with the tubes themselves to causing current to flow. The drop can be engineered to occur upon variety of stimuli voltage, RF andor others. The prototype battery is based on discovery that liquid droplets of electrolyte will stay in dormant state atop nanotextured surfaces until stimulated to flow, thereby triggering reaction producing electricity. The company has proven it is possible to fabricate nanotechbased smart batteries, which can store reserve power for decades and generate electric current virtually on demand.