The emergence of artificial intelligence and the Internet of Things has led to a growing
demand for wearable and maintenance‐free power sources. The continual push toward …

Micro/nano sensors based on oxide semiconductors have received much interest worldwide
due to their remarkable electrical conductivity, good stability, wide range of dimensional …

To avoid carcinogenicity, formaldehyde gas, currently being only detected at higher
operating temperatures, should be selectively detected in time with ppb concentration …

Hydrogen (H2) is currently of strategic importance in the pursuit of a decarbonized,
environmentally benign, sustainable global energy system; however, the explosive nature of …

An emerging subfield of chemical and bioanalytical analysis involving the development of
sensors based upon onedimensional (1D) conductors was supercharged in 2000 by Dai …

Due to the increase in demand for hydrogen in several fields, sensors that detect the
presence of hydrogen gas more precisely even at room temperature (30° C) are required for …

Thermoelectric (TE)-based gas sensors have attracted significant attention due to their high
selectivity, low power consumption, and minimum maintenance requirements. However, it is …

In this paper, laser micro-cladding technology (LMC) was conducted to prepare high-
temperature Pt thick film sensors in situ. The formability, microstructure, sintering …

The electrochemical exfoliation of graphite has been considered to be an effective approach
for the mass production of high-quality graphene due to its easy, simple, and eco-friendly …

The development of hydrogen sensors with high detection accuracy, fast response times,
long calibration periods, and good stability has become the focus of the space station …