To meet this need, Kasuga and coworkers used electrophoretic deposition to fabricate anisotropic cellulose-nanofiber-based hydrogels and moldings. Fig.2. (a) Multi-layered CNF hydrogel and (b ...

The field of 3D bioprinting technology is witnessing rapid advancements, offering new possibilities in regenerative medicine, ...

Researchers have developed a plant-based hydrogel to create shape-changing ... composites that include sustainable, plant-derived cellulose nanoparticles. In addition to being biocompatible ...

Hydrogels have long been recognized for their potential in various applications, including tissue engineering, drug delivery, and wearable ...

Writing in the journal Advanced Functional Materials, a Duke University-led team says they have created the first gel-based cartilage ... team took thin sheets of cellulose fibers and infused ...

Newly developed lignin-based hydrogel proves to be a promising tool for wound healing and controlled drug release, according to a new study. With the rising demand for advanced wound healing and ...

The hydrogel is in turn made up of "an intertwined web" of cellulose nanofibers. Cellulose is the most common organic compound on Earth – it can be easily and inexpensively obtained from a wide ...

Developed by researchers in Japan, this cellulose-based paperboard is durable, waterproof, and fully biodegradable, making it one of the most compelling contenders for a plant-based plastic ...

A recent study by Bowei Wang et al., published in the Journal of Bioresources and Bioproducts, presents a breakthrough in lignin-based hydrogels designed to combine mechanical strength with ...