Electrospinning is considered the most versatile micro‐/nanofiber fabrication technology.
The electrospun fibers hold high surface area, desired mechanical properties, controlled …

Encapsulating living cells within multilayer functional shells is a crucial extension of cellular
functions and a further development of cell surface engineering. In the last decade, cell …

Tendon adhesion formation describes the development of fibrotic tissue between the tendon
and its surrounding tissues, which commonly occurs as a reaction to injury or surgery. Its …

Besides the conventional fiber production methods, microfluidics has emerged as a
promising approach for the engineered spinning of fibrous materials and offers excellent …

In situ tissue regeneration can be defined as the implantation of tissue-specific biomaterials
(by itself or in combination with cells and/or biomolecules) at the tissue defect, taking …

The development and application of nanofibres requires a thorough understanding of the
mechanical properties on a single fibre level including respective modelling tools for precise …

Occlusion of coronary artery and subsequent damage or death of myocardium can lead to
myocardial infarction (MI) and even heart failure—one of the leading causes of deaths world …

Drugs against bacteria and abnormal cells, such as antibiotics and anticancer drugs, may
save human lives. However, drug resistance is becoming more common in the clinical world …

Microfluidics is a promising approach for the facile and large-scale fabrication of
monodispersed droplets for various applications in biomedicine. This technology has …

Aiming at the simplification of protocols as well as the improvement of currently available
thermo-responsive nanocarrier formulations, we propose an innovative heat-triggered …