MEMS Sensor for Detection and Measurement of Ultra-Fine Particles: A Review

TL;DR

This review discusses MEMS resonant sensors' capabilities in detecting and measuring ultra-fine particles like PM and nanoparticles, highlighting their physical principles, sensitivity, and stability in various environments.

Contribution

It provides a comprehensive analysis of MEMS resonant sensors' performance metrics and physical mechanisms for ultra-fine particle detection and measurement.

Findings

Analyzed sensor sensitivity and detection limits.

Evaluated stability and dynamic range of sensors.

Compared piezoelectric and thermally actuated transducers.

Abstract

This paper investigates the performance of the micro-electro-mechanical systems resonant sensor used for particle detection and concentration measurement. These fine and ultra-fine particles such as particulate matter (PM), ferrous particles, and nanoparticles are known to contaminate the atmosphere, fluids used in industrial machines, and food, respectively. The physical principles involved in the target particles accumulating on the sensor are presented. Micro-gravimetric resonators that use piezoelectric and thermally actuated transducers for particle detection and concentration measurement in air and high-viscosity liquids are analyzed. Critical sensor features, such as maximum possible parametric sensitivity, the detection limit of particle size and mass concentration, linear dynamic range, and output stability, are thoroughly evaluated.