Perotto and colleagues took advantage of the thiol groups on the cysteine amino acids in keratin. They thought they could ...

Recent advances in the field of materials science have opened new possibilities for the fabrication of bioelectronics, devices designed to be worn or implanted in the human body. Bioelectronics can ...

Studying spinal cord injuries requires a material that can transmit clear signals yet remain flexible for when patients move ...

New research has identified a way to more properly send electrical signals through 3D printed material.

The packaging will be based on an environmentally friendly biomaterial, like a PLA bionanocomposite ... We offer daily updated business news and reports, in-depth market analysis, polymer prices and ...

You will be redirected to our submission process. In the dynamic field of materials science, nanomaterials paired with polymer composites represent a significant advancement, particularly in ...

leveraging natural polymers such as alginate, chitosan, hyaluronic acid, and cellulose. The integration of ionic liquids into these hydrogels enhances their mechanical properties and conductivity, ...

Polymers are the world’s most versatile materials, and nearly everything ranging from high-tech electronics to biomedicine to consumer packaging can be made from polymers. Most of these polymers are ...

The team recently published a review in Cell Biomaterials on the potential of Zwitterions in biomedicine, providing an in-depth blueprint for the design of surface coating technologies.

The field of immunotherapeutics is rapidly evolving with the advent of cell therapies, complex biologics, and a host of other compounds. Polymeric carriers are often used to tune the safety and ...