Advances in ultrasensitive piezoresistive sensors: from conventional to flexible and stretchable applications
The piezoresistive effect has been a dominant mechanical sensing principle that has been
widely employed in a range of sensing applications. This transducing concept still receives …
widely employed in a range of sensing applications. This transducing concept still receives …
Progress in micro/nano sensors and nanoenergy for future AIoT-based smart home applications
Self-sustainable sensing systems composed of micro/nano sensors and nano-energy
harvesters contribute significantly to developing the internet of things (IoT) systems. As one …
harvesters contribute significantly to developing the internet of things (IoT) systems. As one …
Advances in Si and SiC materials for high‐performance supercapacitors toward integrated energy storage systems
Silicon (Si), as the second most abundant element on Earth, has been a central platform of
modern electronics owing to its low mass density and unique semiconductor properties …
modern electronics owing to its low mass density and unique semiconductor properties …
Wide-band-gap semiconductors for biointegrated electronics: Recent advances and future directions
Wearable and implantable bioelectronics have experienced remarkable progress over the
last decades. Bioelectronic devices provide seamless integration between electronics and …
last decades. Bioelectronic devices provide seamless integration between electronics and …
[HTML][HTML] Effect of mechanical strain on lateral photovoltaic effect in n‐3C‐SiC/n‐Si hetorjunction Toward mechanical strain sensors capable of photoenergy harvesting
It is beneficial to have sensors capable of harvesting photoenergy in the era of Internet of
Things (IoT) and 5 G integrated infrastructure. In this paper, we report the piezo …
Things (IoT) and 5 G integrated infrastructure. In this paper, we report the piezo …
Self-powered and autonomous vibrational wake-up system based on triboelectric nanogenerators and MEMS switch
With the extensive application of wireless sensing nodes, the demand for sustainable
energy in unattended environments is increasing. Here, we report a self-powered and …
energy in unattended environments is increasing. Here, we report a self-powered and …
Vertical piezo-optoelectronic coupling in a 3C-SiC/Si heterostructure for self-powered and highly sensitive mechanical sensing
This paper presents a novel self-powered mechanical sensing based on the vertical piezo-
optoelectronic coupling in a 3C-SiC/Si heterojunction. The vertical piezo-optoelectronic …
optoelectronic coupling in a 3C-SiC/Si heterojunction. The vertical piezo-optoelectronic …
Ultra-sensitive self-powered position-sensitive detector based on horizontally-aligned double 3C-SiC/Si heterostructures
Position-sensitive detectors (PSDs) utilising the lateral photovoltaic effect (LPE) are actively
being explored to achieve precise optical alignments for applications such as surface …
being explored to achieve precise optical alignments for applications such as surface …
Generation of a charge carrier gradient in a 3C-SiC/Si heterojunction with asymmetric configuration
It is critical to investigate the charge carrier gradient generation in semiconductor junctions
with an asymmetric configuration, which can open a new platform for developing lateral …
with an asymmetric configuration, which can open a new platform for developing lateral …
The concept of light-harvesting, self-powered mechanical sensors using a monolithic structure
In the age of Internet-of-Things (IoT), 5G wireless networks, the drive towards
decarbonization of the energy system, and to reducing environmental pollution, developing …
decarbonization of the energy system, and to reducing environmental pollution, developing …