A Series of NiM (M = Ru, Rh, and Pd) Bimetallic Catalysts for Effective Lignin Hydrogenolysis in Water

Zhang, Jiaguang; Teo, J.K.J.; Chen, Xi; Asakura, Hiroyuki; Tanaka, Tsunehiro; Teramura, Kentaro; Yan, Ning

doi:10.1021/cs401199f

Cited by 444 publications

(293 citation statements)

References 63 publications

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“…It was proposed that the improved yield from combining Raney Ni with a zeolite arose from the latter hindering the reaction between the parent lignin and other more reactive lignin fragments that could together to produce high molecular weight oligomers. Bimetallic NiM (M = Ru, Rh, Pd, Au, Mo) catalysts have also been studied for lignin hydrogenolysis [33,34], [35] [36], wherein NaOH addition proved beneficial, promoting the formation of aromatic compounds and supressing arene hydrogenation. Konnerth et al [37] also observed increased Organosolv lignin depolymerization via NaOH addition to the aqueous reaction mixture containing an Ni 7 Au 3 Fig.…”

Section: Hydrogenolysismentioning

confidence: 99%

Heterogeneously catalyzed lignin depolymerization

Pineda

Lee

2016

Appl Petrochem Res

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Biomass offers a unique resource for the sustainable production of bio-derived chemical and fuels as drop-in replacements for the current fossil fuel products. Lignin represents a major component of lignocellulosic biomass, but is particularly recalcitrant for valorization by existing chemical technologies due to its complex crosslinking polymeric network. Here, we highlight a range of catalytic approaches to lignin depolymerisation for the production of aromatic bio-oil and monomeric oxygenates.

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Section: Hydrogenolysismentioning

confidence: 99%

Heterogeneously catalyzed lignin depolymerization

Pineda

Lee

2016

Appl Petrochem Res

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“…A key advantage of our lignin depolymerization method is the retention of functional groups in the major phenolic product 8, as these groups are frequently lost in other lignin depolymerization processes. [13,17] Future studies will focus on integrating methods to recover and recycle both the organic solvents used and the solubilized zinc salts in the aqueous waste stream. The environmental and cost implications of using a halogenated organic catalyst, such as DDQ, will also be assessed.…”

Section: Technologiestoproducechemicalsandfuelsfromrenewablementioning

confidence: 99%

Isolation of Functionalized Phenolic Monomers through Selective Oxidation and CO Bond Cleavage of the β‐O‐4 Linkages in Lignin

et al. 2014

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Functionalized phenolic monomers have been generated and isolated from an organosolv lignin through a two-step depolymerization process. Chemoselective catalytic oxidation of b-O-4 linkages promoted by the DDQ/tBuONO/ O 2 system was achieved in model compounds, including polymeric models and in real lignin. The oxidized b-O-4 linkages were then cleaved on reaction with zinc. Compared to many existing methods, this protocol, which can be achieved in one pot, is highly selective, giving rise to a simple mixture of products that can be readily purified to give pure compounds. The functionality present in these products makes them potentially valuable building blocks.

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“…Then a sample was acquired from the organic phase for GC-MS analysis. For GC-MS analysis, the response factor for each product was standardized with the use of efficient carbon number (Scanion and Willis, 1985;Zhang et al, 2014b), which enabled the analysis of compounds without pure standards.…”

Section: Lignin Depolymerization In a Parr Reactormentioning

confidence: 99%

High Catalytic Efficiency of Lignin Depolymerization over Low Pd-Zeolite Y Loading at Mild Temperature

et al. 2018

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GRAPHICAL ABSTRACT | High catalytic efficiency of lignin depolymerization over low Pd-zeolite Y loading at mild temperature. This article reported a novel low-temperature process for aromatics production through lignin depolymerization catalyzed by 0.1 wt% Pd-zeolite Y catalyst prepared by a facile method. Under the same reactive condition, the as-prepared Pd-zeolite Y catalysts exhibited much higher catalytic efficiency than zeolite Y or commercial Pd/Al2O3-zeolite composites. The selectivity of the Pd-zeolite Y toward lignin depolymerization was also much higher than the other commercial zeolite-based catalysts. With the presence of hydrogen, aromatics were the predominant products with high yields of phenols and dimers (over 99%). The as-obtained aromatics can be promising feedstock for production of fuels or chemicals for various applications. Results revealed that the Pd-zeolite Y catalyst is a highly active catalyst for the cleavage of lignin interlinkages, especially the C-O-C bonds by hydrogenolysis.

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A Series of NiM (M = Ru, Rh, and Pd) Bimetallic Catalysts for Effective Lignin Hydrogenolysis in Water

Cited by 444 publications

References 63 publications

Heterogeneously catalyzed lignin depolymerization

Heterogeneously catalyzed lignin depolymerization

Isolation of Functionalized Phenolic Monomers through Selective Oxidation and CO Bond Cleavage of the β‐O‐4 Linkages in Lignin

High Catalytic Efficiency of Lignin Depolymerization over Low Pd-Zeolite Y Loading at Mild Temperature

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