Breaking up water: Controlling molecular vibrations to produce hydrogen
Natural gas (methane) can be converted into hydrogen (H2), which is used in clean energy, synthetic fertilizers, and many other chemicals. The reaction requires water and a nickel catalyst. Methane and water molecules attach on the catalyst's surface, where they dissociate into their atomic components. These then recombine to form different compounds like H2 and CO. Previous research has focused mainly on understanding how methane dissociates, but experimental constraints have limited research into water dissociation. Publishing in Science, EPFL scientists have used lasers to determine for the first time how specific vibrations in a water molecule affect its ability to dissociate. The experimental results were used to optimize theoretical models for water dissociation (University of New Mexico), which can impact the design of future catalysts.