With the development of the Internet of Things and information technology, a large number of inexpensive sensors are needed to monitor the state of the object. A wide variety of sensors with a low cost can be made using the difference in charge attractiveness between flexible polymers and other materials. Compared to the two solid materials, a sensor made of a solid polymer-liquid has a large contact area and low friction. A motion-balanced sensor is presented based on the polytetrafluoroethene pipe and nano-iron suspension. The effect of the concentration and volume of the nano-iron suspension on the output voltage of the sensor is analyzed. The motion-balanced sensor can be used to measure the tilt angle of the object and there is a linea...
The rapid development of the fifth generation technology poses more challenges in the human motion i...
Bend sensors are composed of a flexible substrate and a conductive layer, which changes its electric...
This article describes the manufacturing technology of biocompatible flexible strain-sensitive senso...
The self-powered and autonomous sensors are incredibly important in advanced engineering, especially...
Recent advances in wearable computing ask for bendable and conformable electronic circuits and senso...
Flexible sensors have attracted increasing research interest due to their broad application potentia...
Wearable sensors for the detection of human activities including subtle physiological signals and la...
As the Internet of Things becomes more and more mainstream, sensors are widely used in the field of ...
A self-powered portable triboelectric nanogenerator (TENG) is used to collect biomechanical energy a...
A flexible piezoresistive sensor was developed as an accelerometer based on Graphene/PVDF nanocompos...
Recent advances in wearable computing ask for bendable and conformable electronic circuits and senso...
Resistive flex sensors can be used to measure bending or flexing with relatively little effort and a...
This work focuses on the fabrication and evaluation of triboelectric nanogenerator (TENG) based self...
We designed, fabricated, and validated a piezoresistive bending sensor, a fundamental component of w...
We designed, fabricated, and validated a piezoresistive bending sensor, a fundamental component of w...
The rapid development of the fifth generation technology poses more challenges in the human motion i...
Bend sensors are composed of a flexible substrate and a conductive layer, which changes its electric...
This article describes the manufacturing technology of biocompatible flexible strain-sensitive senso...
The self-powered and autonomous sensors are incredibly important in advanced engineering, especially...
Recent advances in wearable computing ask for bendable and conformable electronic circuits and senso...
Flexible sensors have attracted increasing research interest due to their broad application potentia...
Wearable sensors for the detection of human activities including subtle physiological signals and la...
As the Internet of Things becomes more and more mainstream, sensors are widely used in the field of ...
A self-powered portable triboelectric nanogenerator (TENG) is used to collect biomechanical energy a...
A flexible piezoresistive sensor was developed as an accelerometer based on Graphene/PVDF nanocompos...
Recent advances in wearable computing ask for bendable and conformable electronic circuits and senso...
Resistive flex sensors can be used to measure bending or flexing with relatively little effort and a...
This work focuses on the fabrication and evaluation of triboelectric nanogenerator (TENG) based self...
We designed, fabricated, and validated a piezoresistive bending sensor, a fundamental component of w...
We designed, fabricated, and validated a piezoresistive bending sensor, a fundamental component of w...
The rapid development of the fifth generation technology poses more challenges in the human motion i...
Bend sensors are composed of a flexible substrate and a conductive layer, which changes its electric...
This article describes the manufacturing technology of biocompatible flexible strain-sensitive senso...