Cellulose is the most abundant polymer and a very important renewable resource. Since cellulose cannot be shaped by melting, a major route for its use for novel materials, new chemical compounds and renewable energy must go via the solution state. Investigations during several decades have led to the identification of several solvents of notably different character. The mechanisms of dissolution in terms of intermolecular interactions have been discussed from early work but, even on fundamental aspects, conflicting and opposite views appear. In view of this, strategies for developing new solvent systems for various applications have remained obscure. There is for example a strong need for using forest products for higher value materials and...
Despite being the world's most abundant natural polymer and one of the most studied, cellulose is st...
International audienceThe dissolution of cellulose is a critical step for the efficient utilization ...
International audienceAll natural and regenerated cellulose objects are difficult to dissolve while ...
Cellulose is the most abundant polymer and a very important renewable resource. Since cellulose cann...
The development of cellulose dissolution/regeneration strategies constitutes an increasingly active ...
The development of cellulose dissolution/regeneration strategies constitutes an increasingly active ...
Cellulose dissolution and regeneration is an increasingly active research field due to the direct re...
Cellulose dissolution and regeneration are old topics that have recently gained renewed attention. T...
The development of strategies for dissolution and regeneration of cellulose constitutes an increasin...
Cellulose dissolution and regeneration are old topics that have recently gained renewed attention. T...
Cellulose dissolution and regeneration are old topics that have recently gained renewed attention. T...
Cellulose is a polymer so widely abundant and versatile that we can find it almost everywhere in man...
International audienceThe swelling and dissolution mechanisms of several cellulose derivatives (nitr...
International audienceThe swelling and dissolution mechanisms of cotton or wood fibers cellulose fib...
Cellulose is the World’s most abundant biopolymer and an important renewable raw material for many m...
Despite being the world's most abundant natural polymer and one of the most studied, cellulose is st...
International audienceThe dissolution of cellulose is a critical step for the efficient utilization ...
International audienceAll natural and regenerated cellulose objects are difficult to dissolve while ...
Cellulose is the most abundant polymer and a very important renewable resource. Since cellulose cann...
The development of cellulose dissolution/regeneration strategies constitutes an increasingly active ...
The development of cellulose dissolution/regeneration strategies constitutes an increasingly active ...
Cellulose dissolution and regeneration is an increasingly active research field due to the direct re...
Cellulose dissolution and regeneration are old topics that have recently gained renewed attention. T...
The development of strategies for dissolution and regeneration of cellulose constitutes an increasin...
Cellulose dissolution and regeneration are old topics that have recently gained renewed attention. T...
Cellulose dissolution and regeneration are old topics that have recently gained renewed attention. T...
Cellulose is a polymer so widely abundant and versatile that we can find it almost everywhere in man...
International audienceThe swelling and dissolution mechanisms of several cellulose derivatives (nitr...
International audienceThe swelling and dissolution mechanisms of cotton or wood fibers cellulose fib...
Cellulose is the World’s most abundant biopolymer and an important renewable raw material for many m...
Despite being the world's most abundant natural polymer and one of the most studied, cellulose is st...
International audienceThe dissolution of cellulose is a critical step for the efficient utilization ...
International audienceAll natural and regenerated cellulose objects are difficult to dissolve while ...