Wearable triboelectric nanogenerators (TENGs) have been shown promising for
accelerating wound healing by locally generating electrical fields to the wound area. It is …

Electrical stimulation (ES) induces wound healing and skin regeneration. Combining ES
with the tissue-engineering approach, which relies on biomaterials to construct a …

The pH of wound fluid has long been recognized as an important diagnostic for assessing
wound condition, but as yet there are few technological options available to the clinician …

Non‐invasive, biomedical devices have the potential to provide important, quantitative data
for the assessment of skin diseases and wound healing. Traditional methods either rely on …

Chronic wounds are a major health concern and they affect the lives of more than 25 million
people in the United States. They are susceptible to infection and are the leading cause of …

Electrical stimulation (ES) via electrodes is promising for treating chronic wounds, but this
electrode-based strategy is unable to stimulate the whole wound area and the therapeutic …

Due to the lack of sufficient elasticity and strain sensing capability, protein-based ultrafine
fibrous tissue engineering scaffolds, though favorable for skin repair, can hardly fulfill on …

Upon cutaneous injury, the human body naturally forms an electric field (EF) that acts as a
guidance cue for relevant cellular and tissue repair and reorganization. However, the direct …

The global increase of cutaneous wounds imposes huge health and financial burdens on
patients and society. Despite improved wound healing outcomes, conventional wound …

The growing socio-economic burden of chronic skin wounds requires the development of
new automated and non-invasive analytical systems capable of wirelessly monitoring …