Tissue engineering utilizes 3D printing and bioink to grow human cells on scaffolds, creating replacements for damaged tissues like skin, cartilage, and even organs. A team of researchers led by ...

A research team from Seoul National University of Science and Technology, Republic of Korea, led by Professor Insup Noh, has developed a bioink using nanocellulose derived from Kombucha SCOBY ...

(Nanowerk Spotlight) Nanocellulose, a specialized type of cellulose processed to create nanoscale fibers, represents a significant advancement in the materials industry. These fibers possess ...

The new tissue engineering method uses a bioink derived from Kombucha SCOBY nanocellulose, reinforced with chitosan and kaolin, and a handheld biopen. The digitally controlled biopen enables precise ...

Tissue engineering combines principles of materials science, cell biology and engineering to restore, replace or enhance biological tissues. Central to this endeavour are biomaterials, which serve as ...

Scientists are developing new fish vaccines using nanocellulose produced from Maine's wood pulp industry. Nanocellulose poses no known harmful effects to fish tissue and is unlikely to cause cellular ...

Dr. Emily Cranston is Associate Professor in the Department of Chemical Engineering at McMaster University in Canada and is this meeting's Fred Kavli Emerging Leader in Chemistry Lecturer. Her ...