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With further research, this technology can create energy and release it into the electric grid system, and what is the most important is a much cheaper cost of production and distribution. In research circles, this technology is known as a flow battery, and it is considered the best candidate for long-term storage of renewable energies. Presently, all liquid materials used in this technology were limited by the amount of energy they could store and provide, or they were highly toxic and dangerous to the environment and human health. Also, many of these materials produce extremely high temperatures which makes them an unusable technology.

Now, researchers from Stanford University led by professor William Chueh decided to try new materials such as potassium and sodium. These two elements were mixed with liquid metal at room temperatures where fluid acts as the electron donor and makes a negative side of the battery. In theory, a liquid metal used in this experiment has 10 times more energy per gram than other liquid metals used in these experiments. No other material is a better candidate for the negative side of the battery.

Researchers still have a lot of work to do, but this is definitely the best path to follow regarding flow battery technology. In the near future, this effort can create affordable, much longer-lasting energy storage and larger use of wind and solar power, by using only materials which are abundant on planet Earth.

To enable the usage of the material's negative end of the battery, the researchers discovered a perfect ceramic membrane made of aluminum oxide and potassium to keep positive and negative materials completely separate while allowing the flow of electricity.

The combination of these two materials doubled the maximum voltage of presently the most advanced flow batteries, and the experimental prototype was able to remain stable for thousands of hours of operation. When you have a higher voltage that means you can store more energy in smaller containers, which also leads to lower costs of battery production.

The potential of this new battery technology is enormous, including size, safety, cost, efficiency, lifetime, and other. Researchers explained that this technology has the potential, with more effort, to accomplish all, which is why this project is increasing funds. In the near future, we can expect this battery to become an everyday part of our lives.