Traditional public health systems are suffering from limited, delayed, and inefficient medical
services, especially when confronted with the pandemic and the aging population. Fusing …

This paper provides a comprehensive review of the recent progress made in energy
harvesting systems for wearable technology. An energy-harvesting system would be a …

Commercial wearable piezoelectric sensors possess excellent anti-interference stability due
to their electronic packaging. However, this packaging renders them barely breathable and …

Over the past few decades, significant progress in piezo‐/triboelectric nanogenerators
(PTEGs) has led to the development of cutting‐edge wearable technologies. Nanofibers with …

Piezoelectric materials, with their unique ability for mechanical‐electrical energy conversion,
have been widely applied in important fields such as sensing, energy harvesting …

Highly sensitive flexible pressure sensors are extensively investigated for various
applications, such as electronic skin, human physiological monitoring, and artificial …

Smart textiles are composed of multi-structured functional materials capable of producing
sensory responses and energy in response to environmental, chemical and physical stimuli …

Textiles are turning into a suitable next-generation sensing platform because of their good
breathability, softness, and structural elasticity. Besides, research on self-powered …

The fast growth of the Internet of Things (IoT) will make traditional silicon-based electronics
not fully capable of meeting market demands for portable, wearable, wireless, and real-time …

Clean energy, water, and air are all critical to the sustainable development of humanity.
Electrospun nanofibers, including nanofibrous membranes, have attracted enormous …