Ben Goundie scite author profile

Catalytic reduction of pyrolyzed biomass is required to remove oxygen and produce transportation fuels, but limited knowledge of how hydrodeoxygenation (HDO) catalysts work stymies the rational design of more efficient and stable catalysts, which in turn limits deployment of biofuels. This work reports results from a novel study utilizing both isotopically labeled phenol (which models the most recalcitrant components of biofuels) with D 2 O and DFT calculations to provide insight into the mechanism of the highly efficient HDO catalyst, Ru/TiO 2 . The data point to the importance of interface sites between Ru nanoparticles and the TiO 2 support and suggest that water acts as a cocatalyst favoring a direct deoxygenation pathway in which the phenolic OH is replaced directly with H to form benzene. Rather than its reducibility, we propose that the amphoteric nature of TiO 2 facilitates H 2 heterolysis to generate an active site water molecule that promotes the catalytic C−O bond scission of phenol. This work has clear implications for efforts to scale-up the hydrogen-efficient conversion of wood waste into transportation fuels and biochemicals.

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Effects of support identity and metal dispersion in supported ruthenium hydrodeoxygenation catalysts

Newman

Zhou

Goundie

et al. 2014

Applied Catalysis A: General

158

126

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Probing the Local Site Environments in Mn:CdSe Quantum Dots

et al. 2011

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Effects of pore diameter on particle size, phase, and turnover frequency in mesoporous silica supported cobalt Fischer–Tropsch catalysts

Ghampson

Newman

Kong

et al. 2010

Applied Catalysis A: General

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Ben Goundie

Experimental and Theoretical Insights into the Hydrogen-Efficient Direct Hydrodeoxygenation Mechanism of Phenol over Ru/TiO₂

Effects of support identity and metal dispersion in supported ruthenium hydrodeoxygenation catalysts

Probing the Local Site Environments in Mn:CdSe Quantum Dots

Effects of pore diameter on particle size, phase, and turnover frequency in mesoporous silica supported cobalt Fischer–Tropsch catalysts

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About

Ben Goundie

Experimental and Theoretical Insights into the Hydrogen-Efficient Direct Hydrodeoxygenation Mechanism of Phenol over Ru/TiO2

Effects of support identity and metal dispersion in supported ruthenium hydrodeoxygenation catalysts

Probing the Local Site Environments in Mn:CdSe Quantum Dots

Effects of pore diameter on particle size, phase, and turnover frequency in mesoporous silica supported cobalt Fischer–Tropsch catalysts

Contact Info

Product

Resources

About

Experimental and Theoretical Insights into the Hydrogen-Efficient Direct Hydrodeoxygenation Mechanism of Phenol over Ru/TiO₂