New York: Inspired by Vitamin B12, researchers from Harvard University have identified a new class of high-performing organic molecules that can safely store electricity from energy sources like solar and wind power in large batteries. In their previous work, the team developed a high-capacity flow battery that stored energy in organic molecules called quinones and a food additive called ferrocyanide. Flow batteries store energy in solutions in external tanks -- the bigger the tanks, the more energy they store. That advance was a game-changer, delivering the first high-performance, non-flammable, non-toxic, non-corrosive and low-cost chemicals that could enable large-scale, inexpensive electricity storage. While the versatile quinones show great promise for flow batteries, Harvard researchers continued to explore other organic molecules in pursuit of even better performance. “Now, after considering about a million different quinones, we have developed a new class of battery electrolyte material that expands the possibilities of what we can do," informed Kaixiang Lin, PhD student at Harvard and first author of the paper. “Its simple synthesis means it should be manufacturable on a large scale at a very low cost, which is an important goal of this project,” he added in a paper published in the journal Nature Energy. In this research, the team found inspiration in vitamin B2 which helps store energy from food in the body. The key difference between B2 and quinones is that nitrogen atoms, instead of oxygen atoms, are involved in picking up and giving off electrons. "With only a couple of tweaks to the original B2 molecule, this new group of molecules becomes a good candidate for alkaline flow batteries," said Michael J. Aziz from Harvard's John A. Paulson School of Engineering and Applied Sciences (SEAS). "They have high stability and solubility and provide high battery voltage and storage capacity. Because vitamins are remarkably easy to make, this molecule could be manufactured on a large scale at a very low cost,' Aziz noted. The team will continue to explore quinones, as well as this new universe of molecules, in pursuit of a high-performing, long-lasting and inexpensive flow battery.