2012
DOI: 10.1038/ncomms2053
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A non-syn-gas catalytic route to methanol production

Abstract: methanol is an important platform molecule for chemical synthesis and its high energy density also renders it a good candidate as a cleaner transportation fuel. At present, methanol is manufactured from natural gas via the indirect syn-gas route. Here we show that ethylene glycol, a versatile chemical derived from biomass or fossil fuels, can be directly converted to methanol in hydrogen with high selectivity over a Pd/Fe 2 o 3 co-precipitated catalyst. This opens up a possibility for diversification in natura… Show more

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Cited by 77 publications
(91 citation statements)
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“…As highlighted by Tsang and co-workers [131], it is very important to control pre-reduction treatments, in terms of temperature and duration, because they affect the induction time. Recently, considering the peculiar features of magnetite particles related to their lower sensitivity to oxidation, strong ferromagnetic behavior and easy recovery (aided by an external magnetic field) and reuse, the preparation of Pd/Fe 3 O 4 catalyst in nanometric scale of different property and composition attracted a lot of interest [196].…”
Section: Co-precipitation-cpmentioning
confidence: 99%
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“…As highlighted by Tsang and co-workers [131], it is very important to control pre-reduction treatments, in terms of temperature and duration, because they affect the induction time. Recently, considering the peculiar features of magnetite particles related to their lower sensitivity to oxidation, strong ferromagnetic behavior and easy recovery (aided by an external magnetic field) and reuse, the preparation of Pd/Fe 3 O 4 catalyst in nanometric scale of different property and composition attracted a lot of interest [196].…”
Section: Co-precipitation-cpmentioning
confidence: 99%
“…After 24 h of reaction, no structural modification of the Fe3O4 support was monitored, while the presence of the diffraction peak relative to the (111) plane of the palladium is indicative of Pd particles agglomeration [128]. TEM and HAADF-STEM of co-precipitated Pd/Fe catalysts allowed to measure the average size of the palladium particles, ranging between 0.5 and 1.5 nm, as depicted in Figure 4 [131].…”
Section: Physico-chemical Characterizationmentioning
confidence: 99%
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