A novel optical ammonia sensor based on reflectance measurements for highly polluted and coloured water

One of the major problems in the analysis of ammonia (NH3) using spectrophotometric method is highly coloured water sample. A reflectometric NH3 sensor based on a facile single-step immobilisation of cobalt(II) (Co2+) ion onto high capacity Dowex HCR-W2 microspheres has been developed to enable the...

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Main Authors: Tan Ling, Ling,, Musa, Ahmad,, Lee Yook, Heng,
Format: Article
Language:English
Published: Elsevier Science Sa 2015
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Online Access:http://ddms.usim.edu.my/handle/123456789/7971
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spelling my.usim-79712017-02-23T04:53:28Z A novel optical ammonia sensor based on reflectance measurements for highly polluted and coloured water Tan Ling, Ling, Musa, Ahmad, Lee Yook, Heng, Reflectometric Ammonia Immobilised cobalt(II) ion Dowex HCR-W2 Optode Hexamminecobaltate(II) complex One of the major problems in the analysis of ammonia (NH3) using spectrophotometric method is highly coloured water sample. A reflectometric NH3 sensor based on a facile single-step immobilisation of cobalt(II) (Co2+) ion onto high capacity Dowex HCR-W2 microspheres has been developed to enable the direct NH3 determination in highly coloured water samples. The combination of Co2+ ion-immobilised microspheres via cation exchange chemical reaction and reflectometric technique has improved the optode sensing performance with respect to linear response range and response time. Immobilised Co2+ ion, when complexed with NH3 gave a blue colouration of hexamminecobaltate(II) ([Co(NH3)(6)](2+)) complex at pH 13. The NH3 sensor reached maximum colour intensity in similar to 6 min at ambient conditions. The linear calibration curve was 60-290 mM NH3 with a detection limit of 16 mM NH3, which is suitable for direct determination of NH3-enriched leachate water samples. A good reproducibility between 5.4 and 5.9% relative standard deviation (RSD) was obtained with the probe and the sensing performance can be regenerated using buffer pH 1. The effect of potential interference ions has been investigated during the quantification of NH3 in heavily polluted sewage water. The results obtained were in good agreement with those produced by acidimetric reference method. Crown Copyright (C) 2012 Published by Elsevier B.V. All rights reserved. 2015-05-12T07:05:38Z 2015-05-12T07:05:38Z 2012 Article 0925-4005 http://ddms.usim.edu.my/handle/123456789/7971 en Elsevier Science Sa
institution Universiti Sains Islam Malaysia
building USIM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universit Sains Islam i Malaysia
content_source USIM Institutional Repository
url_provider http://ddms.usim.edu.my/
language English
topic Reflectometric
Ammonia
Immobilised cobalt(II) ion
Dowex HCR-W2
Optode
Hexamminecobaltate(II) complex
spellingShingle Reflectometric
Ammonia
Immobilised cobalt(II) ion
Dowex HCR-W2
Optode
Hexamminecobaltate(II) complex
Tan Ling, Ling,
Musa, Ahmad,
Lee Yook, Heng,
A novel optical ammonia sensor based on reflectance measurements for highly polluted and coloured water
description One of the major problems in the analysis of ammonia (NH3) using spectrophotometric method is highly coloured water sample. A reflectometric NH3 sensor based on a facile single-step immobilisation of cobalt(II) (Co2+) ion onto high capacity Dowex HCR-W2 microspheres has been developed to enable the direct NH3 determination in highly coloured water samples. The combination of Co2+ ion-immobilised microspheres via cation exchange chemical reaction and reflectometric technique has improved the optode sensing performance with respect to linear response range and response time. Immobilised Co2+ ion, when complexed with NH3 gave a blue colouration of hexamminecobaltate(II) ([Co(NH3)(6)](2+)) complex at pH 13. The NH3 sensor reached maximum colour intensity in similar to 6 min at ambient conditions. The linear calibration curve was 60-290 mM NH3 with a detection limit of 16 mM NH3, which is suitable for direct determination of NH3-enriched leachate water samples. A good reproducibility between 5.4 and 5.9% relative standard deviation (RSD) was obtained with the probe and the sensing performance can be regenerated using buffer pH 1. The effect of potential interference ions has been investigated during the quantification of NH3 in heavily polluted sewage water. The results obtained were in good agreement with those produced by acidimetric reference method. Crown Copyright (C) 2012 Published by Elsevier B.V. All rights reserved.
format Article
author Tan Ling, Ling,
Musa, Ahmad,
Lee Yook, Heng,
author_facet Tan Ling, Ling,
Musa, Ahmad,
Lee Yook, Heng,
author_sort Tan Ling, Ling,
title A novel optical ammonia sensor based on reflectance measurements for highly polluted and coloured water
title_short A novel optical ammonia sensor based on reflectance measurements for highly polluted and coloured water
title_full A novel optical ammonia sensor based on reflectance measurements for highly polluted and coloured water
title_fullStr A novel optical ammonia sensor based on reflectance measurements for highly polluted and coloured water
title_full_unstemmed A novel optical ammonia sensor based on reflectance measurements for highly polluted and coloured water
title_sort novel optical ammonia sensor based on reflectance measurements for highly polluted and coloured water
publisher Elsevier Science Sa
publishDate 2015
url http://ddms.usim.edu.my/handle/123456789/7971
_version_ 1645152310063529984
score 13.187197