Add to ORKGThe dehydration of xylose yields furfural, a product of considerable value as both a commodity chemical and a platform for producing a variety of fuels. When xylose is dehydrated in aqueous solution in the presence of a Brønsted acid catalyst, humins are formed via complex side processes that ultimately result in a loss in the yield of furfural. Such degradative processes can be minimized via the insitu extraction of furfural into an organic solvent. The partitioning of furfural from water into a given extracting solvent can be enhanced by the addition of salt to the aqueous phase, a process that increases the thermodynamic activity of furfural in water. Although the thermodynamics of using salts to improve liquid-liquid extraction are well...
The mechanism of the initial reactions in the acid-catalytic conversion of D-xylose/D-xylulose to fu...
Furfural is a platform chemical that can be obtained from renewable resources. It can be produced by...
Furfural (FUR) was produced from xylose using a biphasic batch reaction system. Water-immiscible org...
The utilization of biomass-waste such as sugar-bagasse,water-hyacynth and palm-oil-fiber as alternat...
Lignocellulosic biomass, with a high content of hemicellulose, is the main source of pentoses, from ...
It is known that both acids and salts have a positive catalytic effect on the dehydration of pentose...
peer-reviewedThe full text of this article will not be available on ULIR until the embargo expires o...
The conversion of lignocellulosic biomass to biofuel precursors and specialty chemicals was studied ...
A comprehensive kinetic model describes the dehydration of xylose starting from the boronate diester...
In this paper both the mechanistic and kinetic aspects of furfural formation from pentoses in aqueou...
The dehydration of xylose gives furfural; however, furfural is rapidly decomposed and polymerized un...
In this study, the acid-catalyzed conversion of xylose to furfural was investigated in 20 solvents r...
The activity of Lewis (Nb2O5) and Brönsted (Amberlyst 70) acid catalysts for the cyclodehydration of...
Furfural is a platform chemical that can be obtained from renewable resources. It can be produced by...
ZSM-5 zeolite in H+ form with an average pore size of 1.2 nm was used for aqueous phase dehydration ...
The mechanism of the initial reactions in the acid-catalytic conversion of D-xylose/D-xylulose to fu...
Furfural is a platform chemical that can be obtained from renewable resources. It can be produced by...
Furfural (FUR) was produced from xylose using a biphasic batch reaction system. Water-immiscible org...
The utilization of biomass-waste such as sugar-bagasse,water-hyacynth and palm-oil-fiber as alternat...
Lignocellulosic biomass, with a high content of hemicellulose, is the main source of pentoses, from ...
It is known that both acids and salts have a positive catalytic effect on the dehydration of pentose...
peer-reviewedThe full text of this article will not be available on ULIR until the embargo expires o...
The conversion of lignocellulosic biomass to biofuel precursors and specialty chemicals was studied ...
A comprehensive kinetic model describes the dehydration of xylose starting from the boronate diester...
In this paper both the mechanistic and kinetic aspects of furfural formation from pentoses in aqueou...
The dehydration of xylose gives furfural; however, furfural is rapidly decomposed and polymerized un...
In this study, the acid-catalyzed conversion of xylose to furfural was investigated in 20 solvents r...
The activity of Lewis (Nb2O5) and Brönsted (Amberlyst 70) acid catalysts for the cyclodehydration of...
Furfural is a platform chemical that can be obtained from renewable resources. It can be produced by...
ZSM-5 zeolite in H+ form with an average pore size of 1.2 nm was used for aqueous phase dehydration ...
The mechanism of the initial reactions in the acid-catalytic conversion of D-xylose/D-xylulose to fu...
Furfural is a platform chemical that can be obtained from renewable resources. It can be produced by...
Furfural (FUR) was produced from xylose using a biphasic batch reaction system. Water-immiscible org...