New technology can separate the fibers in the sugar beet pulp left over after sugar production. Part of the fiber can be used ...

In a groundbreaking study on the synthesis of cellulose – a major constituent of all plant cell walls – a team of Rutgers University-New Brunswick researchers has captured images of the microscopic ...

Matsushima adds: “We also aim to develop many other plant-based products, from foods to vegetable leather.” Kusano Sakko’s trademarked bacterial cellulose, Fibnano, is already used in ...

Rutgers’ biophysicists, bioengineers and plant biologists capture first live images of cellulose construction leading to ...

In a groundbreaking study on the synthesis of cellulose -- a major constituent of all plant cell walls -- a team has captured images of the microscopic process of cell-wall building continuously over ...

In a groundbreaking study on the synthesis of cellulose – a major constituent of all plant cell walls – a team of Rutgers University-New Brunswick ...

Cellulose is everywhere. In fact, it is the most abundant organic molecule on the Earth! It’s in (but not limited to) our food, clothing, and plastics, and the cellulose compound nitrocellulose is ...

Cellulose is now recognized as the most abundant organic polymer on Earth and is primarily used for paper and cardboard. It's also used in industries like construction, pharmaceuticals, food, and ...

Carboxymethyl cellulose (CMC) is a water-soluble polymer derived from cellulose, known scientifically as sodium carboxymethylcellulose (Na-CMC). It is produced through a two-stage commercial process ...

Oregon State University and South Korean researchers say they have made a key advance in turning spent coffee grounds into ...