Air-Coupled Photoacoustic Detection of Airborne Particulates

Abstract: In this study, we present a novel method to detect airborne particulates using aircoupled photoacoustics, with a goal toward detecting viral content in respiratory droplets. The peak photoacoustic frequency emitted from micrometer-sized particulates is over 1000 MHz, but at this frequency, the signals are highly attenuated in air. Measurements were taken using a thin planar absorber and ultrasound transducers with peak sensitivity between 50 kHz and 2000 kHz and a 532 nm pulsed laser to determine the optimum d… Show more

“…Recently, there has been growing interest in the photoacoustic effect, with extensive exploration across various fields, including biomedicine, 1 spectrum measurement, 2 and particle manipulation. 3 In the realm of the biomedical field, numerous technologies based on the photoacoustic effect have been widely applied, including photoacoustic imaging technology, 4,5 the photoacoustic flow cytometry technique, 6 biological neuromodulations, 7,8 and photothermal/photoacoustic theranostic platform technology.…”

Enhancement of the photoacoustic effect during the light–particle interaction

“…Recently, there has been growing interest in the photoacoustic effect, with extensive exploration across various fields, including biomedicine, 1 spectrum measurement, 2 and particle manipulation. 3 In the realm of the biomedical field, numerous technologies based on the photoacoustic effect have been widely applied, including photoacoustic imaging technology, 4,5 the photoacoustic flow cytometry technique, 6 biological neuromodulations, 7,8 and photothermal/photoacoustic theranostic platform technology.…”

Enhancement of the photoacoustic effect during the light–particle interaction