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A study of the correlation between fine particle mass loading effect and frequency shift of a bare QCM

Fine particles are particulate matters having a diameter less than 2.5 µm, ubiquitous in ambient air and mainly resulted from many emission sources. Several epidemiologic studies have investigated fine particles that have a relationship with an inflammatory response deep in the lung and red blood ce...

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Main Authors:	Budianto, Arif, Wardoyo, Arinto Yudi Ponco, Masruroh, Dharmawan, Hari Arief, Nurhuda, Muhammad
Format:	Conference Proceeding
Language:	English
Subjects:	Circuits Correlation analysis Diameters Emission analysis Erythrocytes Frequency counters Frequency shift Inflammatory response Microbalances Particle mass Quartz Quartz crystals Resonant frequencies Time measurement
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creator	Budianto, Arif Wardoyo, Arinto Yudi Ponco Masruroh Dharmawan, Hari Arief Nurhuda, Muhammad
description	Fine particles are particulate matters having a diameter less than 2.5 µm, ubiquitous in ambient air and mainly resulted from many emission sources. Several epidemiologic studies have investigated fine particles that have a relationship with an inflammatory response deep in the lung and red blood cells. For these reasons, the interest in real- time monitoring of the concentrations in the ambient air has increased. In this study, a bare quartz crystal microbalance combined by an impactor, a fine particle filter paper, and a signal conditioning circuit was used to measure the fine particle concentration based on the frequency change. This study aimed to define the correlation between mass loading and frequency shift of the crystal. The mass of fine particles was calculated by multiplying the total of fine particles concentration, emission flow-rate, and measurement time. A Kanomax Digital Dust Monitor Model 3443 was used to measure the concentration of fine particles inside an experimental chamber with a volume of 12,000 cm3 for certain measurement times. At the same time, a bare quartz crystal microbalance with a fundamental frequency of 9.9780 MHz was connected to an oscillator and frequency counter to measure the frequency shift related to the fine particle concentration fluctuation. The results showed that the frequency shift of the crystal, to the fine particle mass, in which frequency decreases corresponding to the increasing amount of particle mass.
doi_str_mv	10.1063/5.0030820
format	conference_proceeding
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At the same time, a bare quartz crystal microbalance with a fundamental frequency of 9.9780 MHz was connected to an oscillator and frequency counter to measure the frequency shift related to the fine particle concentration fluctuation. 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Several epidemiologic studies have investigated fine particles that have a relationship with an inflammatory response deep in the lung and red blood cells. For these reasons, the interest in real- time monitoring of the concentrations in the ambient air has increased. In this study, a bare quartz crystal microbalance combined by an impactor, a fine particle filter paper, and a signal conditioning circuit was used to measure the fine particle concentration based on the frequency change. This study aimed to define the correlation between mass loading and frequency shift of the crystal. The mass of fine particles was calculated by multiplying the total of fine particles concentration, emission flow-rate, and measurement time. A Kanomax Digital Dust Monitor Model 3443 was used to measure the concentration of fine particles inside an experimental chamber with a volume of 12,000 cm3 for certain measurement times. At the same time, a bare quartz crystal microbalance with a fundamental frequency of 9.9780 MHz was connected to an oscillator and frequency counter to measure the frequency shift related to the fine particle concentration fluctuation. The results showed that the frequency shift of the crystal, to the fine particle mass, in which frequency decreases corresponding to the increasing amount of particle mass.</abstract><cop>Melville</cop><pub>American Institute of Physics</pub><doi>10.1063/5.0030820</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record>
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identifier	ISSN: 0094-243X
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source	American Institute of Physics:Jisc Collections:Transitional Journals Agreement 2021-23 (Reading list)
subjects	Circuits Correlation analysis Diameters Emission analysis Erythrocytes Frequency counters Frequency shift Inflammatory response Microbalances Particle mass Quartz Quartz crystals Resonant frequencies Time measurement
title	A study of the correlation between fine particle mass loading effect and frequency shift of a bare QCM
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