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Detection of particulate matters with a field-­portable microscope using side­-illuminated total internal reflection

Authors
Yang, H.Shin, S.Seo, D.Park, J.Seo, S.
Issue Date
4월-2021
Publisher
MDPI AG
Keywords
Field­portable microscope; Optical detection; Particulate matter (PM); Side illumination; Total internal reflection (TIR)
Citation
Sensors, v.21, no.8
Journal Title
Sensors
Volume
21
Number
8
URI
https://www.kriso.re.kr/sciwatch/handle/2021.sw.kriso/8298
DOI
10.3390/s21082745
ISSN
1424-8220
1424-3210
Abstract
Field­portable observation and analysis of particulate matter (PM) is required to enhance healthy lives. Various types of the PM measurement methods are in use; however, each of these methods has significant limitations in that real time measurement is impossible, the detection system is bulky, or the measurement accuracy is insufficient. In this work, we introduce an optical method to perform a fast and accurate PM analysis with a higher­contrast microscopic image enabled by a side­illuminated total internal reflection (TIR) technique to be implemented in a compact device. The superiority of the proposed method was quantitatively demonstrated by comparing the signal­to­noise ratio of the proposed side­illuminated TIR method with a traditional halogen lamp-based transmission microscope. With the proposed device, signal­to­noise ratios (SNRs) for microbeads (5~20 μm) and ultrafine dust particles (>5 μm) increased 4.5~17 and 4~10 dB, respectively, compared to the conventional transmission microscope. As a proof of concept, the proposed method was also applied to a low­cost commercial smartphone toy microscope enabling field­portable detection of PMs. We believe that the proposed side­illuminated TIR PM detection device holds significant advantages over other commonly used systems due to its sufficient detection capability along with simple and compact configuration as well as low cost. ? 2020 by the authors. Licensee MDPI, Basel, Switzerland.
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