Journal article
Gas-Phase Models for the Nickel- and Palladium-Catalyzed Deoxygenation of Fatty Acids
Kevin Parker, Geethika K Weragoda, Victoria Pho, Allan J Canty, Anastasios Polyzos, Richard AJ O'Hair, Victor Ryzhov
CHEMCATCHEM | WILEY-V C H VERLAG GMBH | Published : 2020
Abstract
Using fatty acids as renewable sources of biofuels requires deoxygenation. While a number of promising catalysts have been developed to achieve this, their operating mechanisms are poorly understood. Here, model molecular systems are studied in the gas phase using mass spectrometry experiments and DFT calculations. The coordinated metal complexes [(phen)M(O2CR)]+ (where phen=1,10‐phenanthroline; M=Ni or Pd; R=CnH2n+1, n≥2) are formed via electrospray ionization. Their collision‐induced dissociation (CID) initiates deoxygenation via loss of CO2 and [C,H2,O2]. The CID spectrum of the stearate complexes (R=C17H35) also shows a series of cations [(phen)M(R’)]+ (where R’ C2), were unreactive towa..
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Awarded by ARC
Awarded by NSF MRI program
Funding Acknowledgements
We acknowledge the support of the ARC (DP180101187 funding to AJC and RAJO), and the National Computing Infrastructure. We also acknowledge the generous support from NSF MRI program (award # CHE:1726931 to VR) for the purchase of the high-resolution mass spectrometer.