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

Combining ferromagnetic–antiferromagnetic materials in nanoalloys (ie, nanoparticles, NPs,
containing more than one element) can create a diverse landscape of potential electronic …

High-entropy alloys are promising materials for novel thin-film resistors since they have high
resistivity and a low-temperature coefficient of resistivity (TCR). In this work, a new high …

Comprehensive understandings for the resistivity− temperature behavior of high-entropy
alloy (HEA) films is crucial for assessing their potential as thin-film resistive materials. But …

In the nanoregime, chemical species can reorganize in ways not predicted by their
equilibrium bulk behavior. Here, we engineer Ni-Cr nanoalloys at the magnetic end of their …

Thin film material systems with extremely low temperature coefficient of resistance (TCR) are
highly sought for the fabrication of high precision electronic devices to replace existing …

Wearable devices have become one of the most promising modern technologies due to the
rapid development of network and sensor systems. Moreover, flexible sensors were …

Abstract Tantalum silicate (Ta-Si-O) thin film materials have gained significant interest in
hybrid renewable energy systems and thin-film resistors due to their exceptional thermal …

Ta–N–Al thin films were produced by reactive sputtering with two different TaAl alloys (Al 10
at.% and 20 at.%) for use as resistive materials for thin film chip resistors. Changing the N 2 …

The Cu-Fe binary alloys exhibit severe elemental segregation, resulting in an
inhomogeneous microstructure, which leads to differences in microregion magnetic …