Abstract
Industry has depended on the water-gas shift (WGS) reaction for more than a century. The WGS process, which combines carbon monoxide and water to form carbon dioxide and hydrogen, is a key component of industrial plants that use hydrogen to process hydrocarbons or to synthesize ammonia or methanol. The intimately related reverse process, RWGS, consumes CO2, a greenhouse gas, and generates CO, a valuable reagent. This chemistry has a long history, yet scientists continue to debate the nature of the catalytically active site and reaction pathway, key pieces of information needed for improving catalyst performance. Vassiliki-Alexandra “Vanda” Glezakou, Janos Szanyi, and coworkers at Pacific Northwest National Laboratory hope to end the debate. In a study combining spectroscopy, kinetics, and computations, the team analyzed the RWGS reaction driven by a palladium-alumina catalyst. They found that the key intermediate is a carboxylate species that bridges palladium and aluminum atoms (shown) and that
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