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

Melis S. Duyar; Charlie Tsai; Jonathan L. Snider; Joseph A. Singh; Alessandro Gallo; Jong Suk Yoo; Andrew J. Medford; Frank Abild-Pedersen; Felix Studt; Jakob Kibsgaard; Stacey F. Bent; Jens K. Nørskov; Thomas F. Jaramillo

doi:10.1002/ange.201806583

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

Journal article

Peer reviewed

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

Melis S. Duyar, Charlie Tsai, Jonathan L. Snider, Joseph A. Singh, Alessandro Gallo, Jong Suk Yoo, Andrew J. Medford, Frank Abild-Pedersen, Felix Studt, Jakob Kibsgaard, …

Angewandte Chemie, Vol.130(46), pp.15265-15270

12/11/2018

DOI: https://doi.org/10.1002/ange.201806583

Abstract

CO-Hydrierung

CO2-Hydrierung

Formiat

Methanol-Synthese

Molybdänphosphid

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. MoP katalysiert die Hydrierung von CO und CO2 zu Methanol. Indem nur der einzähnige Koordinationsmodus von Formiat stabilisiert wird, umgeht das Phosphid den (sich verstärkenden) Effekt, der sich aus der notwendigen Voraussetzung, sauerstoffhaltige Intermediate zu binden, und der Desaktivierung des Katalysators durch hohe Formiat‐Bedeckungen in Gegenwart von CO2 ergibt.

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Title: A Highly Active Molybdenum Phosphide Catalyst for Methanol Synthesis from CO and CO2
Creators: Melis S. Duyar - Stanford University
Charlie Tsai - Stanford University
Jonathan L. Snider - Stanford University
Joseph A. Singh - SLAC National Accelerator Laboratory
Alessandro Gallo - SLAC National Accelerator Laboratory
Jong Suk Yoo - SLAC National Accelerator Laboratory
Andrew J. Medford - SLAC National Accelerator Laboratory
Frank Abild-Pedersen - Stanford University
Felix Studt - Stanford University
Jakob Kibsgaard - Stanford University
Stacey F. Bent - SLAC National Accelerator Laboratory
Jens K. Nørskov - Stanford University
Thomas F. Jaramillo - Stanford University
Publication Details: Angewandte Chemie, Vol.130(46), pp.15265-15270
Number of pages: 6
Date published: 12/11/2018
Grant note: U.S. Department of Energy (DEAC02-76SF00515) Basic Energy Sciences (DE-AC02-76SF00515) National Science Foundation
Identifiers: 99783380302346
Academic Unit: School of Chemistry and Chemical Engineering
Language: English
Resource Type: Journal article

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

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