New enhancement method on sensing ability of micro resonator bottle structure using polymer materials drop-casting coating technique
This experimental paper proposes a new method to enhance the ability of microbottle resonator (MBR) sensor through polymethyl methacrylate (PMMA) and polyvinyl alcohol (PVA). The bottle resonator custom used the soften-and-compress technique from SMF28 silica fiber, then coated with PMMA and PVA. Th...
Published in: | OPTOELECTRONICS AND ADVANCED MATERIALS-RAPID COMMUNICATIONS |
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Language: | English |
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NATL INST OPTOELECTRONICS
2023
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Online Access: | https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001163853400001 |
author |
Zabidi Muhammad Izzat Zakwan Mohd; Ahmad Aminah Binti; Johari Md Ashadi Md; Harun Mohamad Haniff; Azahar Arman Hadi; Khalid Ahmad Khudzairi |
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Zabidi Muhammad Izzat Zakwan Mohd; Ahmad Aminah Binti; Johari Md Ashadi Md; Harun Mohamad Haniff; Azahar Arman Hadi; Khalid Ahmad Khudzairi New enhancement method on sensing ability of micro resonator bottle structure using polymer materials drop-casting coating technique Materials Science; Optics |
author_facet |
Zabidi Muhammad Izzat Zakwan Mohd; Ahmad Aminah Binti; Johari Md Ashadi Md; Harun Mohamad Haniff; Azahar Arman Hadi; Khalid Ahmad Khudzairi |
author_sort |
Zabidi |
spelling |
Zabidi, Muhammad Izzat Zakwan Mohd; Ahmad, Aminah Binti; Johari, Md Ashadi Md; Harun, Mohamad Haniff; Azahar, Arman Hadi; Khalid, Ahmad Khudzairi New enhancement method on sensing ability of micro resonator bottle structure using polymer materials drop-casting coating technique OPTOELECTRONICS AND ADVANCED MATERIALS-RAPID COMMUNICATIONS English Article This experimental paper proposes a new method to enhance the ability of microbottle resonator (MBR) sensor through polymethyl methacrylate (PMMA) and polyvinyl alcohol (PVA). The bottle resonator custom used the soften-and-compress technique from SMF28 silica fiber, then coated with PMMA and PVA. Three MBR used are non-coated MBR, MBR-PMMA and MBR-PVA. The coated and non-coated MBRs were then characterized via taper microfiber and achieved to have Q-factor > 10(5) for all, MBR-PVA is at the top with 8.624 x 10(5). The MBRs were then experienced as ethanol gas sensors, with the gas percentages used between 1% to 5% ppm. The sensitivity, linearity and stability are measured parameters via transmitted spectral and wavelength shift. The findings show that the MBR-PVA tremendously outraged every observed parameter. Here, the coating may influence the MBR performance as a gas sensor. NATL INST OPTOELECTRONICS 1842-6573 2065-3824 2023 17 11-Dec Materials Science; Optics WOS:001163853400001 https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001163853400001 |
title |
New enhancement method on sensing ability of micro resonator bottle structure using polymer materials drop-casting coating technique |
title_short |
New enhancement method on sensing ability of micro resonator bottle structure using polymer materials drop-casting coating technique |
title_full |
New enhancement method on sensing ability of micro resonator bottle structure using polymer materials drop-casting coating technique |
title_fullStr |
New enhancement method on sensing ability of micro resonator bottle structure using polymer materials drop-casting coating technique |
title_full_unstemmed |
New enhancement method on sensing ability of micro resonator bottle structure using polymer materials drop-casting coating technique |
title_sort |
New enhancement method on sensing ability of micro resonator bottle structure using polymer materials drop-casting coating technique |
container_title |
OPTOELECTRONICS AND ADVANCED MATERIALS-RAPID COMMUNICATIONS |
language |
English |
format |
Article |
description |
This experimental paper proposes a new method to enhance the ability of microbottle resonator (MBR) sensor through polymethyl methacrylate (PMMA) and polyvinyl alcohol (PVA). The bottle resonator custom used the soften-and-compress technique from SMF28 silica fiber, then coated with PMMA and PVA. Three MBR used are non-coated MBR, MBR-PMMA and MBR-PVA. The coated and non-coated MBRs were then characterized via taper microfiber and achieved to have Q-factor > 10(5) for all, MBR-PVA is at the top with 8.624 x 10(5). The MBRs were then experienced as ethanol gas sensors, with the gas percentages used between 1% to 5% ppm. The sensitivity, linearity and stability are measured parameters via transmitted spectral and wavelength shift. The findings show that the MBR-PVA tremendously outraged every observed parameter. Here, the coating may influence the MBR performance as a gas sensor. |
publisher |
NATL INST OPTOELECTRONICS |
issn |
1842-6573 2065-3824 |
publishDate |
2023 |
container_volume |
17 |
container_issue |
11-Dec |
doi_str_mv |
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topic |
Materials Science; Optics |
topic_facet |
Materials Science; Optics |
accesstype |
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id |
WOS:001163853400001 |
url |
https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001163853400001 |
record_format |
wos |
collection |
Web of Science (WoS) |
_version_ |
1809678795303550976 |