2017
DOI: 10.1002/cctc.201601590
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On the Reactivity of Dihydro‐p‐coumaryl Alcohol towards Reductive Processes Catalyzed by Raney Nickel

Abstract: There are severalestablished approaches for the reductive fractionation of lignocellulose (e.g.," catalytic upstream biorefining" and "lignin-first"approaches) that lead to alignin oil product that is composed primarily of dihydro-p-monolignols [e.g., 4-(3-hydroxypropyl)-2-methoxyphenol and 4-(3-hydroxypropyl)-2,6-dimethoxyphenol].A lthough effective catalytic methods have been developed to perform reductive or deoxygenative processeso nt he lignin oil, the influence of the 3-hydroxypropyls ubstituent on catal… Show more

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Cited by 25 publications
(24 citation statements)
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(33 reference statements)
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“…However, care must be taken in drawing firm conclusions about such surface orientations since the solvent was switched from Me-THF to cyclohexane for these ATR-IR adsorption measurements, which were also conducted at lower temperature than full reactions (and in absence of i-PrOH or H 2 coreactants); it is unclear whether the orientation of these adsorbed ethers is temperature sensitive of influenced by solvent competitive adsorption. Indeed, ATR-IR flow studies suggest that alcohol solvents inhibit the catalytic transfer hydrogenation of phenol to cyclohexanol over RANEY Ni through competitive adsorption with 2-propanol (as H-donor); , primary alcohols and diols can displace 2-propanol from the catalyst surface, lowering CTH activity. Catalyst inhibition by alcohols released from holocellulose during biomass fractionation could limit the viability of CTH routes for lignin valorization.…”
Section: Catalytic Transfer Hydrogenolysismentioning
confidence: 99%
“…However, care must be taken in drawing firm conclusions about such surface orientations since the solvent was switched from Me-THF to cyclohexane for these ATR-IR adsorption measurements, which were also conducted at lower temperature than full reactions (and in absence of i-PrOH or H 2 coreactants); it is unclear whether the orientation of these adsorbed ethers is temperature sensitive of influenced by solvent competitive adsorption. Indeed, ATR-IR flow studies suggest that alcohol solvents inhibit the catalytic transfer hydrogenation of phenol to cyclohexanol over RANEY Ni through competitive adsorption with 2-propanol (as H-donor); , primary alcohols and diols can displace 2-propanol from the catalyst surface, lowering CTH activity. Catalyst inhibition by alcohols released from holocellulose during biomass fractionation could limit the viability of CTH routes for lignin valorization.…”
Section: Catalytic Transfer Hydrogenolysismentioning
confidence: 99%
“…Compounds 2a-2c derive from the loss of hydroxyl group in the side chain of 1, while 3 can be the product of the cleavage of the C β -C γ bond of the 4-(3-hydroxypropyl)phenols (1), resulting in the release of formaldehyde. 40 Table 3 compares the mole ratio 1a:1b:1c with the expected monomer composition and reveals information on the extent of demethoxylation.…”
Section: Impact Of Temperature On the Distribution Of Low M W Productmentioning
confidence: 99%
“…5 The use of liquid organic H-donors instead of H2 enables a considerable degree of control over the reaction in terms of selectivity for given products. 5,13 In fact, organic Hdonors could transfer hydrogen through different mechanistic pathways to the substrate (e.g. hydride transfer or direct hydrogen transfer also known as Meerwein−Ponndorf−Verley mechanism) and compete with the reactants and intermediates The conversion of 2-methoxyphenol involves firstly the DMO of the phenolic substrate, which is followed by the HYD of the phenolic intermediate to the corresponding cyclohexanol.…”
Section: Introductionmentioning
confidence: 99%