(Nanowerk News) Changing the way a plant forms cellulose may lead to more efficient, less expensive biofuel production, according to Penn State engineers. "What every biofuel manufacturer wants to do ...

Aptly called the Kyoto Process after the Kyoto University laboratory in Japan where the research is taking place, the process aims to reduce the cost of producing vehicles while making them lighter ...

(Phys.org) —Improved methods for breaking down cellulose nanofibers are central to cost-effective biofuel production and the subject of new research from Los Alamos National Laboratory (LANL) and the ...

For centuries, cellulose has formed the basis of the world's most abundantly printed-on material: paper. Now, thanks to new research at MIT, it may also become an abundant material to print ...

WEST LAFAYETTE, Ind. - Purdue University researchers have developed tough, flexible, biodegradable films from cellulose, the main component of plant cell walls. The films could be used for products ...

(Nanowerk News) For centuries, cellulose has formed the basis of the world’s most abundantly printed-on material: paper. Now, thanks to new research at MIT, it may also become an abundant material to ...

Worn Again Technologies has unveiled a new Accelerator plant designed to scale its textile-to-fibre recycling process and ...

Researchers have invented a 3-D printing process for cellulose, the world's most abundant polymer, which could rival petroleum-based plastics as source of printing feedstock. For centuries, cellulose ...

Improved methods for breaking down cellulose nanofibers are central to cost-effective biofuel production and the subject of new research. Scientists are investigating the unique properties of ...