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Abstract
USC researchers have developed a liquid phase process that efficiently converts inorganic metal carbonates into valuable fuels and feedstocks like methanol and methane, using hydrogenation under mild conditions. This method, aided by heterogeneous catalysts, achieves high selectivity and yield. It also generates metal hydroxides, which can...
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Background
Methanol as a liquid hydrogen carrier, offers advantages in handling and energy density, but conventional acquiring methods require high operating temperatures and produces CO₂ and trace CO, that poisons PEM fuel cell catalysts. A low-temperature, CO₂-free hydrogen generation and compression method for integration with proton exchange membrane...
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