Fabrics represent a unique platform for seamlessly integrating electronics into everyday
experiences. The advancements in functionalizing fabrics at both the single fibre level and …

Hydrogels find widespread applications in biomedicine because of their outstanding
biocompatibility, biodegradability, and tunable material properties. Hydrogels can be …

Combining low-dimensional layers of dissimilar metal oxide materials to form a
heterojunction structure offers a potent strategy to improve the performance and stability of …

The latest developments in fiber design and materials science are paving the way for fibers
to evolve from parts in passive components to functional parts in active fabrics. Designing …

Converging the fibrous flexibility and resilience with the advantageous electrical properties
of organic electrochemical transistors (OECTs), fiber-shaped OECTs possess great potential …

Fiber-type electronics is a crucial field for realizing wearable electronic devices with a wide
range of sensing applications. In this paper, we begin by discussing the fabrication of fibers …

A digital twin (DT) of the human body is a virtual representation of an individual's
physiological state, created using real-time data from sensors and medical devices, with the …

Textiles with a freedom of form factor, unlimited scalability, and high programmability provide
an ideal platform for constructing wearable optoelectronic systems. The emerging wearable …

A human body digital twin (DT) is a virtual representation of an individual's physiological
state, created using real-time data from sensors and medical test devices, with the purpose …

The integration of advanced diagnostic technologies in healthcare is crucial for enhancing
the accuracy and efficiency of disease detection and management. This paper presents an …