ornery_chemist@mander.xyz
on 17 Apr 23:55
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Apparently this particular catalyst is pitched as an H2 evolution catalyst by oxidizing alcohols… can anyone with access to the article tell me where that energy comes from (thermo- or electrocatalytic)? IIRC alcohol dehydrogenation is endothermic by like 15-20 kcal/mol. A 1->2 reaction has an entropy change of ~30 eu, so quick math and dirty looks from p-chemists gives an operating temperature somewhere around 300 °C. That’s quite a bit better than conventional crackers but still requires significant thermal encouragement…
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As a chemist, this is so beautiful and exciting. Also, good scientific journalism there
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Apparently this particular catalyst is pitched as an H2 evolution catalyst by oxidizing alcohols… can anyone with access to the article tell me where that energy comes from (thermo- or electrocatalytic)? IIRC alcohol dehydrogenation is endothermic by like 15-20 kcal/mol. A 1->2 reaction has an entropy change of ~30 eu, so quick math and dirty looks from p-chemists gives an operating temperature somewhere around 300 °C. That’s quite a bit better than conventional crackers but still requires significant thermal encouragement…