Microelectromechanical systems sensors have been intensively developed utilizing various
physical concepts, such as piezoresistive, piezoelectric, and thermoresistive effects. Among …

Semiconductor nanowires are widely considered as the building blocks that revolutionized
many areas of nanosciences and nanotechnologies. The unique features in nanowires …

Implantable electronics are of great interest owing to their capability for real-time and
continuous recording of cellular–electrical activity. Nevertheless, as such systems involve …

Flow sensing in hostile environments is of increasing interest for applications in the
automotive, aerospace, and chemical and resource industries. There are thermal and non …

Cubic silicon carbide (3C‐SiC) has superior mobility and thermal conduction over that of
widely applied hexagonal 4H‐SiC. Moreover, much lower concentration of interfacial traps …

Wearable and implantable bioelectronics have experienced remarkable progress over the
last decades. Bioelectronic devices provide seamless integration between electronics and …

Fast and effective detecting of flammable and explosive gases in harsh environments (high
temperature, corrosion atmosphere) is crucial for preventing severe accidents for the …

Enhancing the piezoresistive effect is crucial for improving the sensitivity of mechanical
sensors. Herein, we report that the piezoresistive effect in a semiconductor heterojunction …

There has been increasing interest in electronic systems with integrated microfluidic active
cooling modules. However, the failure of 3C‐SiC/Si interface with increasing temperature …

Single-crystal cubic silicon carbide has attracted great attention for MEMS and electronic
devices. However, current leakage at the SiC/Si junction at high temperatures and visible …