Three-dimensional (3D) printing has a significant role in membrane production for water purification and bio-separation, with capacity to create new and cleverly designed structures. The researchers ...
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 ...
Yingying Liu et al. Construction of a Mesoporous Polydopamine@GO/Cellulose Nanofibril Composite Hydrogel with an Encapsulation Structure for Controllable Drug Release and Toxicity Shielding, ACS ...
The discovery unveils the molecular machinery that plants use to weave cellulose chains into cable-like structures called 'microfibrils.' New research from the University of Virginia School of ...
The EHU’s BIOMAT group has developed a biodegradable gel using natural materials and shape memory for use in tissue ...
Last week two women scientists explained how plants build the cellulose membranes that form cell walls, a process of vital interest to textile technologists. Unable to see how plants manufacture their ...
Cellulose is transitioning from a cheap, low-tech paper commodity into the essential building block of next-generation, sustainable medical manufacturing.When it comes to medicine, natural products ...
Semiconducting nanomaterials with 3D network structures exhibit various fascinating properties such as electrical conduction, high permeability, and large surface areas, which are beneficial for ...
Regenerating cartilage damage by using biological scaffolds of cellulose and soy The EHU’s BIOMAT group has developed a ...