Abstract Poly (2-oxazoline) s have been investigated for decades as biomaterials.
Pioneering early work suggested that hydrophilic poly (2-oxazoline) s are comparable to …

The synthesis of poly (2‐oxazoline) s has been known since the 1960s. In the last two
decades, they have risen in popularity thanks to improvements in their synthesis and the …

Vascular endothelial growth factor (VEGF) plays a vital role in promoting attachment and
proliferation of endothelial cells, and induces angiogenesis. In recent years, much research …

Global food waste is a cross-cutting issue that ranges from agricultural production to storage
in households and leads to the loss of one-third of produced food products. Although the …

Electrospun nanofibers are a 3D scaffold of choice for many drug delivery devices due to
their high surface area, significant capacity for drug payload, ease of in situ placement, and …

Hydrogels have been widely investigated for applications in the human body due to their
tunability and biocompatibility. Nevertheless, their application is still limited by their relatively …

The amino-yne reaction, which performs between an electron-deficient alkyne and an
amine, has been shown to proceed with high efficiency under mild conditions and has …

We report a novel and facile welding strategy using Span 80 to simultaneously enhance the
mechanical robustness and superhydrophilicity of an electrospun poly (vinylidene …

Poly (2-alkyl-2-oxazoline) s (PAOXAs) have been rapidly emerging as starting materials in
the design of tissue engineering supports and for the generation of platforms for cell …

Polymeric nanofibers are finding a growing number of applications in various areas of
biomedical sciences such as diagnostics, therapeutic delivery, and tissue engineering …