Cellulose is one of the most versatile biopolymers found in nature. Its use is now transitioning from sustainability-focused development to provide technical solutions across a wide range of applications. This review paper describes the use of cellulose as reinforcement in biocomposites and recent related advances in 3D printing technologies, including 4D (responsive/smart) printing and current/future applications. Relevant aspects such as the origin and intrinsic/structural properties of cellulose and cellulose/matrix interaction during processing are discussed. A particular focus is directed to identify opportunities for the development of new cellulose-based composites, formulation requirements for 3D/4D printing, and comprehension of th...
Environmental issues are growing in importance due to waste management and depletion of fossil resou...
3D printing enables sustainable product innovations through novel design, reduced use of materials, ...
In this work, we present a new all-cellulose approach for modifying and functionalizing textiles. Th...
Cellulose is one of the most versatile biopolymers found in nature. Its use is now transitioning fro...
Cellulose is naturally available and most abundant biopolymer on earth. It is one of the main consti...
Polymers play a vital role in our daily lives. In various fields such as medical, food industry and ...
Within the last decade, three-dimensional (3D) printing has attracted an unprecedented interest as a...
Cellulose is the most abundant natural polymer on earth, which has obtained increasing interest in t...
Cellulose is a natural linear biopolymer, which is constituted of an assembly of cellulose nanofibri...
3D bioprinting is a new developing technology with lots of promise in tissue engineering and regener...
International audienceAn optimized paste based on short natural cellulose fibers combined with carbo...
Novel solutions using renewable materials are needed to tackle sustainability issues in industry. To...
In this work, we present a new all-cellulose approach for modifying and functionalizing textiles. Th...
Cellulose is an abundant and sustainable material that is receiving more and more attention in diffe...
Nanocellulosic materials, such as cellulose nanocrystals, cellulose nanofibers, and bacterial nanoce...
Environmental issues are growing in importance due to waste management and depletion of fossil resou...
3D printing enables sustainable product innovations through novel design, reduced use of materials, ...
In this work, we present a new all-cellulose approach for modifying and functionalizing textiles. Th...
Cellulose is one of the most versatile biopolymers found in nature. Its use is now transitioning fro...
Cellulose is naturally available and most abundant biopolymer on earth. It is one of the main consti...
Polymers play a vital role in our daily lives. In various fields such as medical, food industry and ...
Within the last decade, three-dimensional (3D) printing has attracted an unprecedented interest as a...
Cellulose is the most abundant natural polymer on earth, which has obtained increasing interest in t...
Cellulose is a natural linear biopolymer, which is constituted of an assembly of cellulose nanofibri...
3D bioprinting is a new developing technology with lots of promise in tissue engineering and regener...
International audienceAn optimized paste based on short natural cellulose fibers combined with carbo...
Novel solutions using renewable materials are needed to tackle sustainability issues in industry. To...
In this work, we present a new all-cellulose approach for modifying and functionalizing textiles. Th...
Cellulose is an abundant and sustainable material that is receiving more and more attention in diffe...
Nanocellulosic materials, such as cellulose nanocrystals, cellulose nanofibers, and bacterial nanoce...
Environmental issues are growing in importance due to waste management and depletion of fossil resou...
3D printing enables sustainable product innovations through novel design, reduced use of materials, ...
In this work, we present a new all-cellulose approach for modifying and functionalizing textiles. Th...