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

At present, the clinical strategies for treating chronic wounds are limited, especially when it
comes to pain relief and rapid wound healing. Therefore, there is an urgent need to develop …

The treatment of tenacious diabetic wounds still remains an enormous challenge in clinics,
originated from the complicated pathological microenvironment of wound sites. Therefore …

Electrospinning (e‐spin) technique has emerged as a versatile and feasible pathway for
constructing diverse polymeric fabric structures, which show potential applications in many …

Diabetic wound shows delayed and incomplete healing processes, which in turn exposes
patients to an environment with a high risk of infection. This article has summarized current …

Implant-associated infection is a major threat affecting the success of orthopedic surgeries.
Although various materials scavenge bacteria by generating reactive oxygen species (ROS) …

A Non-healing infected wound is an ever-growing global epidemic, with increasing burden
of mortality rates and management costs. The problems of chronic wound infections and …

Recent advancement in nanotechnology has brought prominent benefits in tissue
engineering, which has been used to repair or reconstruct damaged tissues or organs and …

Bacterial infection and scar formation remain primary challenges in wound healing. To
address these issues, we developed a decellularized pomelo peel (DPP) functionalized with …

Electrospinning is the simplest and most widely used technology for producing ultra-thin
fibers. During electrospinning, the high voltage causes a thin jet to be launched from the …