Simultaneously detecting multiple signals with high precision has long challenged microelectromechanical systems (MEMS) sensors due to unavoidable interference. A new study presents a solution: a ...

Accurate vacuum sensing is vital in controlling environments where minute changes in pressure can make or break entire processes. Traditional Pirani sensors offer broad range but fall short in ...

Aston University researchers have developed a new class of optical microresonators, miniature optical devices that strongly ...

Memristors, uniquely characterized by their pinched hysteresis loop fingerprints, have attracted significant research interest over the past decade, due to their enormous potential for novel ...

Flexural mode MEMS resonators are ideal candidates for resonant microsensors. However, their high motional resistance in air restricts the performance of corresponding oscillators and consequently the ...

Aston University researchers have developed a new class of optical microresonators, the miniature optical devices that strongly confine and enhance ...

The study focuses on a tri-resonator MEMS structure—essentially three weakly coupled mechanical elements arranged to detect input signals via shifts in stiffness. In conventional mode-localized ...

Explore how MEMS technology is transforming automotive safety and comfort through advanced sensing capabilities.

TDK Corporation has announced a collection of InvenSense sensing solutions designed for smart home applications that require ...

After a tumultuous 2023, the microelectromechanical systems (MEMS) sector returned to growth in 2024 with total revenue ...

The Best of Sensors Awards recognize the industry's most visionary leaders and transformative technologies driving the future of sensing, processing, and connectivity. xMEMS' wins underscore its ...