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A group of researchers at MIT and Cornell University have developed a new kind of energy storage device that combines a lithium-ion battery with a special coating that makes the lithium’s energy density more predictable and efficient.

The new battery system, which can be used to provide up to 5,000 watts of power to homes and businesses, is the result of years of research and design.

The researchers say it could provide a new and more efficient way to store energy that can be easily replaced as batteries run out.

The researchers say the battery is a new type of energy source that uses a lithium ion battery as a storage medium.

This means that a lithium battery can store energy indefinitely without having to be replaced.

The team’s design is based on an advanced process called lithium electrolysis, which uses electrolyte solutions that are specially designed to convert the lithium ions into energy.

This is how batteries can store electricity for a very long time, and they are a promising way to power large-scale, efficient energy systems.

While batteries used in computers, televisions, cellphones and other electronics are widely used today, they tend to be relatively inefficient and cost prohibitive.

That has led to the widespread adoption of batteries in energy storage applications.

To overcome this limitation, the researchers have developed an innovative process that uses electrolytes made of rare earth metals.

These metals are not commonly used in the battery industry, but they can be found in some electric vehicles, and some renewable energy sources, like solar panels and wind turbines, have also used these materials.

“Our new battery has the potential to offer a whole new level of energy density and energy storage capacity,” said senior author Shou-Yu Yang, an associate professor of electrical engineering and computer science at MIT.

Currently, the energy storage technology available to us is limited to very high voltages and very low temperatures.

Lithium batteries, on the other hand, have a much higher capacity and more energy density.

Their design, according to the researchers, is able to store much more energy than existing batteries, because the electrodes are coated with special materials that help to optimize the energy density over time.

This makes it possible to store power for many years, without needing to replace a battery.

The technology could help utilities, small businesses and even industrial companies store large amounts of energy over longer periods of time.

The system could also make energy storage more efficient.

With the new system, the team was able to reduce the voltage to 1.2 volts and increase the temperature to about 5 degrees Celsius, allowing for much longer storage times.

The device, called a hybrid lithium-based battery, has a capacity of up to 100 kilowatts.

The team’s lithium-derived batteries use a unique process that makes it easier to store the lithium in an environment with a high level of lithium ions, such as in a metal such as aluminum.

Because these batteries are coated in a special lithium-metal coating, the electrodes stay flexible and can be stretched for extended periods of storage.

The batteries, which are made from nickel-metal hydride and have a capacity ranging from 50 to 200 kilowatt hours, are available in two types, the PbI 2 and the PnII.

The PbII, a lithium version, is much cheaper than the P2, which is a nickel-based one, and also more efficient than the nickel-ion batteries.

The Pb II is the more popular model, which comes in two sizes: small and large.

The larger version can hold up to 1,000 kilograms, while the smaller version can store up to a few kilograms.

The research is described in the journal Nature Communications.