With this in mind, it has become crucial to investigate flame retardants for plastics. The goal is to improve the material's resistance to fire and reduce the heat release and flame spreading speed.

Researchers create 'living' polymers that grow, degrow, and reprogram their properties after fabrication using reversible chemistry and light-activated catalysts. (Nanowerk Spotlight) A salamander can ...

The possibilities for material design and production of plastic components are being expanded through 3D printing technology. However, there is a shortage of recyclable polymers that meet the ...

Amerigo Scientific reinforced its commitment to advancing the biomedical field by offering biomedical polymers tailored ...

Recent advances in synthetic polypeptide and polymer chemistry have transformed the landscape of biomaterials by combining the precision of organic synthesis with the versatile functionalities of ...

Polymer materials offer cost-effective solutions in engineering, yet their limitations prompt research into nano-reinforced composites for improved performance.

Crustacean and seaweed materials combined in a unique way could provide a sustainable alternative to plastic films. Materials with enhanced structure derived from crustaceans and seaweed could be part ...

While natural polymers, including starches and cellulose, are still commonly used in biomedical research, the utilization of synthetic biodegradable polymers in pharmaceutical and tissue-engineering ...

Plastic pollution remains one of the most persistent environmental crises, with polystyrene (PS) among the hardest polymers ...

The global polymers market size is estimated at USD 885.38 billion in 2026 and is expected to be worth around USD 1,424.98 billion by 2035, exhibiting a compound annual growth rate (CAGR) of 5.43 % ...