Add to ORKGThe flash vacuum pyrolysis of lignin model compounds was studied under conditions optimized for the production of liquid products to provide mechanistic insight into the reaction pathways that lead to product formation. The major reaction products can be explained by cleavage of the C-O either linkage by a free radial or concerted 1,2-elimination
The kinetics and reaction chemistry for the pyrolysis of Maplewood lignin were investigated using bo...
The kinetics and reaction chemistry for the pyrolysis of Maplewood lignin were investigated using bo...
In order to understand the pyrolysis mechanism of β-O-4 type lignin dimers, a pyrolysis model is pro...
Despite the extensive research into the pyrolysis of lignin, the underlying chemical reactions that ...
Currently, there is interest in utilizing lignin, a major constituent of biomass, as a renewable sou...
We report the effect of an organic solvent on the selective cleavage of individual lignin model comp...
By pyrolyzing lignin model compounds 1-lV at 315°C, an investigation was carried out with some resul...
A β-1-type lignin dimer, 1,2-bis(3,5-dimethoxyphenyl)propane-1,3-diol was employed as a model compou...
We report the effect of an organic solvent on the selective cleavage of individual lignin model comp...
The in situ Fourier transform infrared (FTIR) spectroscopy technique was used as an online method fo...
The formation of liquid intermediates and the distribution of products were studied under slow and f...
The formation of liquid intermediates and the distribution of products were studied under slow and f...
In this study, a beta-O-4 dimer with abundant oxygen substituents was successfully synthesized, and ...
Reactions of linkages and monomer rings in hardwood, softwood, and kraft lignin pyrolysis were inves...
Reactions of linkages and monomer rings in hardwood, softwood, and kraft lignin pyrolysis were inves...
The kinetics and reaction chemistry for the pyrolysis of Maplewood lignin were investigated using bo...
The kinetics and reaction chemistry for the pyrolysis of Maplewood lignin were investigated using bo...
In order to understand the pyrolysis mechanism of β-O-4 type lignin dimers, a pyrolysis model is pro...
Despite the extensive research into the pyrolysis of lignin, the underlying chemical reactions that ...
Currently, there is interest in utilizing lignin, a major constituent of biomass, as a renewable sou...
We report the effect of an organic solvent on the selective cleavage of individual lignin model comp...
By pyrolyzing lignin model compounds 1-lV at 315°C, an investigation was carried out with some resul...
A β-1-type lignin dimer, 1,2-bis(3,5-dimethoxyphenyl)propane-1,3-diol was employed as a model compou...
We report the effect of an organic solvent on the selective cleavage of individual lignin model comp...
The in situ Fourier transform infrared (FTIR) spectroscopy technique was used as an online method fo...
The formation of liquid intermediates and the distribution of products were studied under slow and f...
The formation of liquid intermediates and the distribution of products were studied under slow and f...
In this study, a beta-O-4 dimer with abundant oxygen substituents was successfully synthesized, and ...
Reactions of linkages and monomer rings in hardwood, softwood, and kraft lignin pyrolysis were inves...
Reactions of linkages and monomer rings in hardwood, softwood, and kraft lignin pyrolysis were inves...
The kinetics and reaction chemistry for the pyrolysis of Maplewood lignin were investigated using bo...
The kinetics and reaction chemistry for the pyrolysis of Maplewood lignin were investigated using bo...
In order to understand the pyrolysis mechanism of β-O-4 type lignin dimers, a pyrolysis model is pro...