Chronic wound healing is an intricate time-consuming process (healing time∼ 12 weeks),
susceptible to external biological attack such as bacteria (eg E. coli, B. subtilis, S. aureus …

Bacterial cellulose (BC) is cellulose produced by a few limited species of bacteria in given
conditions. BC has many remarkable properties such as its attractive mechanical properties …

Over the years, scientists have been continually striving to develop innovative solutions to
design and fabricate medicines with improved therapeutic potential. Conventional dosage …

In this invited feature article, the invention of pressurized gyration in 2013 and its
subsequent development into sister processes such as pressurized melt gyration, infusion …

In order to provide more effective treatment strategies for the rapid healing of diabetic
wounds, novel therapeutic approaches need to be developed. The therapeutic potential of …

Complex multi-chamber nanostructures are difficult to prepare in a facile and straightforward
manner although they are very useful for designing novel functional nanomaterials. In this …

Nanofibers have received extensive attention in the fields of biomedicine, energy catalysis,
environmental sciences, and filtration owing to their high specific surface area and …

As a facile, efficient, and low‐cost fiber manufacturing strategy, pressurized gyration/rotation
(PG) is attracting tremendous attention. This review provides a comprehensive introduction …

Electro-blown spinning (EBS) is an emergent hybridized nanofibers formation technology.
Recently, there has been a great interest in introducing this novel method for producing sub …

Centrifugal spinning is a technology used to generate small diameter fibers and has been
extensively studied for its vast applications in biomedical engineering. Centrifugal spinning …