Phillips 66 announced it has received a $3 million grant from the U.S. Department of Energy to advance the development of high-performance reversible solid oxide fuel cells. Phillips 66 will collaborate with the Georgia Institute of Technology (Georgia Tech) to demonstrate the commercial feasibility of a low-cost and highly efficient reversible solid oxide fuel cell (RSOFC) system for hydrogen and electricity generation. The technology is one of many Phillips 66 is pursuing as part of its commitment to a sustainable, lower-carbon energy future. SOFCs are ceramic devices that generate electricity efficiently, with low emissions and at a competitive cost by oxidizing a fuel, such as hydrogen or natural gas, through electrochemical reactions rather than combustion. They have a lower carbon footprint compared with conventional power plants and are an ideal technology for the capture of carbon dioxide. Reversible SOFCs allow for the fuel cells to operate in either power generation mode, as a solid oxide fuel cell, or reverse mode, as a solid oxide electrolysis cell. In the latter, electricity is applied to the cells to produce hydrogen, a low-emission fuel, through electrolysis.