Thermally stable and fast responsive mesoporous cresol red functionalized silica and titania nanomatrices: fiber optic ph sensors

Thermally stable and fast responsive mesoporous cresol red functionalized silica and titania nanomatrices: fiber optic ph sensors

Owing to the fast responsive fiber optic pH sensing, silica nanomatrix (SNM) and titania nanomatrix (TNM) are synthesized by the sol–gel method at low temperatures. Cresol red (CR) is immobilized within SNM and TNM for sensing evaluation. Crack-free, crystallinity and porous surfaces with an average...

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Main Authors: Islam, S., Aziz, M. S., Bakhtiar, H., Harun, S. W., Riaz, S., Naseem, S.
Format: Article
Published: Springer 2021
Subjects:
QC Physics
Online Access:http://eprints.utm.my/id/eprint/95278/
http://dx.doi.org/10.1007/s10971-021-05604-z
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Institution: Universiti Teknologi Malaysia
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spelling my.utm.952782022-04-29T22:03:09Z http://eprints.utm.my/id/eprint/95278/ Thermally stable and fast responsive mesoporous cresol red functionalized silica and titania nanomatrices: fiber optic ph sensors Islam, S. Aziz, M. S. Bakhtiar, H. Harun, S. W. Riaz, S. Naseem, S. QC Physics Owing to the fast responsive fiber optic pH sensing, silica nanomatrix (SNM) and titania nanomatrix (TNM) are synthesized by the sol–gel method at low temperatures. Cresol red (CR) is immobilized within SNM and TNM for sensing evaluation. Crack-free, crystallinity and porous surfaces with an average particle size of CR-SNM ~45 ± 0.4 nm and CR-TNM ~24 ± 0.4 nm are observed through microscopic analysis. The is observed in CR immobilized matrices. The CR-SNM shows lower roughness ~7 nm, a large surface area ~380 m2/g, thermal stability at ≤400 °C, and a refractive index 1.47. Whereas, CR-TNM revealed high roughness 48 nm, surface area 211 m2/g, and refractive index 1.76. The sensitivity of the CR-SNM coated fiber is estimated at around 52.8 counts/pH which is greater than CR-TNM coated fiber sensitivity 14.53 counts/pH. Moreover, CR-SNM shows response time 0.17 s at pH 12 which is faster than CR-TNM time response 0.48 s. Springer 2021 Article PeerReviewed Islam, S. and Aziz, M. S. and Bakhtiar, H. and Harun, S. W. and Riaz, S. and Naseem, S. (2021) Thermally stable and fast responsive mesoporous cresol red functionalized silica and titania nanomatrices: fiber optic ph sensors. Journal of Sol-Gel Science and Technology, 99 (3). ISSN 0928-0707 http://dx.doi.org/10.1007/s10971-021-05604-z DOI: 10.1007/s10971-021-05604-z
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic QC Physics
spellingShingle QC Physics
Islam, S.
Aziz, M. S.
Bakhtiar, H.
Harun, S. W.
Riaz, S.
Naseem, S.
Thermally stable and fast responsive mesoporous cresol red functionalized silica and titania nanomatrices: fiber optic ph sensors
description Owing to the fast responsive fiber optic pH sensing, silica nanomatrix (SNM) and titania nanomatrix (TNM) are synthesized by the sol–gel method at low temperatures. Cresol red (CR) is immobilized within SNM and TNM for sensing evaluation. Crack-free, crystallinity and porous surfaces with an average particle size of CR-SNM ~45 ± 0.4 nm and CR-TNM ~24 ± 0.4 nm are observed through microscopic analysis. The is observed in CR immobilized matrices. The CR-SNM shows lower roughness ~7 nm, a large surface area ~380 m2/g, thermal stability at ≤400 °C, and a refractive index 1.47. Whereas, CR-TNM revealed high roughness 48 nm, surface area 211 m2/g, and refractive index 1.76. The sensitivity of the CR-SNM coated fiber is estimated at around 52.8 counts/pH which is greater than CR-TNM coated fiber sensitivity 14.53 counts/pH. Moreover, CR-SNM shows response time 0.17 s at pH 12 which is faster than CR-TNM time response 0.48 s.
format Article
author Islam, S.
Aziz, M. S.
Bakhtiar, H.
Harun, S. W.
Riaz, S.
Naseem, S.
author_facet Islam, S.
Aziz, M. S.
Bakhtiar, H.
Harun, S. W.
Riaz, S.
Naseem, S.
author_sort Islam, S.
title Thermally stable and fast responsive mesoporous cresol red functionalized silica and titania nanomatrices: fiber optic ph sensors
title_short Thermally stable and fast responsive mesoporous cresol red functionalized silica and titania nanomatrices: fiber optic ph sensors
title_full Thermally stable and fast responsive mesoporous cresol red functionalized silica and titania nanomatrices: fiber optic ph sensors
title_fullStr Thermally stable and fast responsive mesoporous cresol red functionalized silica and titania nanomatrices: fiber optic ph sensors
title_full_unstemmed Thermally stable and fast responsive mesoporous cresol red functionalized silica and titania nanomatrices: fiber optic ph sensors
title_sort thermally stable and fast responsive mesoporous cresol red functionalized silica and titania nanomatrices: fiber optic ph sensors
publisher Springer
publishDate 2021
url http://eprints.utm.my/id/eprint/95278/
http://dx.doi.org/10.1007/s10971-021-05604-z
_version_ 1732945453570326528

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