The excellent optoelectronic response capability of InP QDs and the superior electrical transport property of oxide semiconductors are perfectly combined in a single device.
Researchers are employing nearly noiseless superconducting amplifiers to dramatically improve the sensitivity and speed of sensors used in studying energy movement in materials. These breakthroughs offer new possibilities in quantum research and other scientific applications.
Researchers developed flexible electronic skin sensors that maintain performance across extreme temperatures and conditions. crack localization technique yields highly sensitive strain and temperature sensors on robust polymer substrates.
