A Highly Active Molybdenum Phosphide Catalyst for Methanol Synthesis from CO and CO2.

Melis Seher Duyar Charlie TsaiJonathan L SniderJoseph A SinghAlessandro GalloJong Suk YooAndrew J MedfordFrank Abild-PedersenFelix StudtJakob Doganli-KibsgaardStacey F BentJens K NørskovThomas Francisco Jaramillo

Published in: Angewandte Chemie (International ed. in English) (2018)

Methanol is a major fuel and chemical feedstock currently produced from syngas, a CO/CO2 /H2 mixture. Herein we identify formate binding strength as a key parameter limiting the activity and stability of known catalysts for methanol synthesis in the presence of CO2 . We present a molybdenum phosphide catalyst for CO and CO2 reduction to methanol, which through a weaker interaction with formate, can improve the activity and stability of methanol synthesis catalysts in a wide range of CO/CO2 /H2 feeds.

Keyphrases

carbon dioxide
highly efficient
metal organic framework
ionic liquid
room temperature