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Paper detail

Ambient temperature pressure driven alkane dehydrogenation by palladium metal

Dehydrogenation of alkanes is of increasing importance in fulfilling global demand for olefins and offers a potential source of carbon-neutral hydrogen as a co-product. Currently commercial dehydrogenation processes occur at high-temperatures (500-900$^\circ$C) which is energy intensive and results in side reactions and rapid coking of the catalysts. In addition the hydrogen produced is often burned to maintain temperature and to inhibit the back reaction. Here we demonstrate pressure as a parameter to enable novel chemical catalytic processes and demonstrate ambient-temperature dehydrogenation of alkanes by palladium at 50-100 MPa pressures, with both hydrogen gas and olefins recovered on decompression. This reaction follows a fundamentally different path to current commercial high-temperature low-pressure dehydrogenation processes with the palladium catalyst reversibly forming a hydride intermediate.

preprint2022arXivOpen access
Mungo FrostEmma E. McBrideDean SmithJesse S. SmithSiegfried Glenzer
cond-mat.mtrl-sci
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Mungo FrostEmma E. McBrideDean SmithJesse S. SmithSiegfried Glenzer

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