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 ...

Researchers at Virginia Tech have found a way to make biodegradable packaging stronger while using less energy in the process. The research team from the College of Agriculture and Life Sciences and ...

The global microcrystalline cellulose market is projected to grow at a CAGR of 6.23% during 2026–2031, with Asia-Pacific emerging as the fastest-growing region, supported by expanding pharmaceutical ...

(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 ...

A recent study published in the Journal of Bioresources and Bioproducts reports the development of a water-soluble cellulose ethyl phosphite (CEP) adhesive synthesized via a CO2-based solvent system.

Spinnova’s technology for creating fiber from cellulose is a 2019 World Changing Ideas Award Winner. It could stop the bad environmental effects of cotton production. Your future T-shirts might be ...

When manufacturing cellulose-based products, challenges, such as the high melting point of cellulose, make it impossible for it to be melted without decomposition. Thus, shaping cellulose materials ...

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 ...

CAMBRIDGE, Mass. -- 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 ...