Electrospun nanofibers have been extensively studied in the biomedical field, including the
controlled release of drugs, bionics, cell scaffolds, hemostasis, wound healing, and tissue …

Multinuclear metal complexes can effectively improve the catalytic activity of catalysts for ring-
opening polymerization (ROP) of cyclic esters. If the catalytic metal centers are close enough …

One of the greatest trends currently revolutionizing healthcare is the introduction of
advanced additive manufacturing techniques, also known as 3D printing, for personalized …

This comprehensive review begins by tracing the historical development and progress of
cold plasma technology as an innovative approach to polymer engineering. The study …

There is a vast number of treatments on the market for the management of wounds and
burns, representing a multi-billion dollar industry worldwide. These include conventional …

Plasma-based strategies offer several advantages for develo** antibacterial biomaterials
and can be used directly or combined with other surface modification techniques. Direct …

Antibacterial coatings are regarded as a necessary tool to prevent implant-related infections.
Substrate-independent and widely applicable coating techniques are gaining significant …

Electrospinning of polymer materials is a widely used technique, providing nanofibrous mats
with high surface to volume ratio and porosity, which show a great interest in many fields …

In recent years, bacteria inactivation during their direct physical contact with surface
nanotopography has become one of the promising strategies for fighting infection. Contact …

Massive blood loss and bacterial infection are major challenges for global public health.
However, traditional wound dressings cannot fully meet the current clinical needs in …