Add to ORKGA hybrid design combines sensitivity and flexibility to create an acoustic single-fibre sensor that can be knitted into fabric. The future of tracking our health and fitness looks wearable — and perhaps even implantable
The present work designs a piezoelectric nanogenerator (PENG) based on the electrospun nanofibers of...
Sensors are the core part of intelligent smart textiles, and flexible sensors play an important role...
An exciting new direction for ubiquitous computing that has emerged in recent years is the ability t...
Piezoelectric materials show great promise for low-power wearable and implantable sensing, but their...
Self-powered devices and micro-sensors are in high demand for intelligent electronics and flexible w...
Abstract Piezoelectric polymer fibers offer a fundamental element in intelligent fabrics with their ...
A key challenge in electronic textiles is to develop an intrinsically conductive thread of sufficien...
Electronic textiles and functional fabrics are among the key constituents envisioned for wearable el...
2 The integration of smart materials into human wearable interfaces is a current topic of interest. ...
Considerable interest has been devoted to converting mechanical energy into electricity using polyme...
Piezoelectric polymer materials have been under investigation since the 1970’s starting with the di...
The field of medical devices has experienced, more than others, technological advances, developments...
Textile-based sensors can perceive and respond to environmental stimuli in daily life, and hence are...
Sensors based on piezoelectric materials like ZnO, lead zirconate titanate (PZT), MoS2, poly (vinyli...
Piezoelectric ceramics, which have the ability to interconvert between mechanical and electrical ene...
The present work designs a piezoelectric nanogenerator (PENG) based on the electrospun nanofibers of...
Sensors are the core part of intelligent smart textiles, and flexible sensors play an important role...
An exciting new direction for ubiquitous computing that has emerged in recent years is the ability t...
Piezoelectric materials show great promise for low-power wearable and implantable sensing, but their...
Self-powered devices and micro-sensors are in high demand for intelligent electronics and flexible w...
Abstract Piezoelectric polymer fibers offer a fundamental element in intelligent fabrics with their ...
A key challenge in electronic textiles is to develop an intrinsically conductive thread of sufficien...
Electronic textiles and functional fabrics are among the key constituents envisioned for wearable el...
2 The integration of smart materials into human wearable interfaces is a current topic of interest. ...
Considerable interest has been devoted to converting mechanical energy into electricity using polyme...
Piezoelectric polymer materials have been under investigation since the 1970’s starting with the di...
The field of medical devices has experienced, more than others, technological advances, developments...
Textile-based sensors can perceive and respond to environmental stimuli in daily life, and hence are...
Sensors based on piezoelectric materials like ZnO, lead zirconate titanate (PZT), MoS2, poly (vinyli...
Piezoelectric ceramics, which have the ability to interconvert between mechanical and electrical ene...
The present work designs a piezoelectric nanogenerator (PENG) based on the electrospun nanofibers of...
Sensors are the core part of intelligent smart textiles, and flexible sensors play an important role...
An exciting new direction for ubiquitous computing that has emerged in recent years is the ability t...