Simple chemical bath deposited zinc oxide nanoflowers and their applications for extended-gate FET pH sensor / A. B. Rosli …[et al.]
Zinc Oxide (ZnO) nanostructures deposited using simple chemical bath deposition (CBD) at different deposition time ranging from 1 to 4 hours on indium tin oxide (ITO) substrates are proposed as sensing membrane of extended-gate field effect transistor (EGFET) pH sensor. The ZnO nanostructures were g...
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my.uitm.ir.488062021-07-24T17:56:14Z http://ir.uitm.edu.my/id/eprint/48806/ Simple chemical bath deposited zinc oxide nanoflowers and their applications for extended-gate FET pH sensor / A. B. Rosli …[et al.] Rosli, Aimi Bazilah Ismail, Ahmad Syakirin Awang, Zaiki Abdul Khalid, Muhammad Farid Shariffudin, Shafinaz Sobihana Herman, Sukreen Hana Atomic physics. Constitution and properties of matter Detectors. Sensors. Sensor networks Nuclear engineering. Atomic power Zinc Oxide (ZnO) nanostructures deposited using simple chemical bath deposition (CBD) at different deposition time ranging from 1 to 4 hours on indium tin oxide (ITO) substrates are proposed as sensing membrane of extended-gate field effect transistor (EGFET) pH sensor. The ZnO nanostructures were grown without any seed or catalyst layer. The deposited samples were characterized on their physical properties in order to investigate the correlation between physical properties and pH sensing behavior based on the influence of various deposition time to the physical properties. It is evident from the FESEM result that the nanostructures growth density is directly proportional to the growth time. Same goes on crystallinity quality of the samples that shows the same pattern as growth density. The physical properties of the ZnO nanostructures can be related to the immersion time and in turn influence the pH sensor performance. All deposited samples showed the ability to be applied as the sensing material for the EGFET pH sensor with the highest performance was obtained from the 3-hours sample having sensitivity of 56.0 mV/pH and 0.9997 linearity. The high sensitivity obtained from the 3-hour sample is related to high growth density of ZnO nanostructures that provide high surface area which facilities more contact between sensing membrane and pH buffer for ion adsorptions. Universiti Teknologi MARA 2019-06 Article PeerReviewed text en http://ir.uitm.edu.my/id/eprint/48806/1/48806.pdf ID48806 Rosli, Aimi Bazilah and Ismail, Ahmad Syakirin and Awang, Zaiki and Abdul Khalid, Muhammad Farid and Shariffudin, Shafinaz Sobihana and Herman, Sukreen Hana (2019) Simple chemical bath deposited zinc oxide nanoflowers and their applications for extended-gate FET pH sensor / A. B. Rosli …[et al.]. Journal of Electrical and Electronic Systems Research (JEESR), 14. pp. 68-75. ISSN 1985-5389 https://jeesr.uitm.edu.my |
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Atomic physics. Constitution and properties of matter Detectors. Sensors. Sensor networks Nuclear engineering. Atomic power |
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Atomic physics. Constitution and properties of matter Detectors. Sensors. Sensor networks Nuclear engineering. Atomic power Rosli, Aimi Bazilah Ismail, Ahmad Syakirin Awang, Zaiki Abdul Khalid, Muhammad Farid Shariffudin, Shafinaz Sobihana Herman, Sukreen Hana Simple chemical bath deposited zinc oxide nanoflowers and their applications for extended-gate FET pH sensor / A. B. Rosli …[et al.] |
| description |
Zinc Oxide (ZnO) nanostructures deposited using simple chemical bath deposition (CBD) at different deposition time ranging from 1 to 4 hours on indium tin oxide (ITO) substrates are proposed as sensing membrane of extended-gate field effect transistor (EGFET) pH sensor. The ZnO nanostructures were grown without any seed or catalyst layer. The deposited samples were characterized on their physical properties in order to investigate the correlation between physical properties and pH sensing behavior based on the influence of various deposition time to the physical properties. It is evident from the FESEM result that the nanostructures growth density is directly proportional to the growth time. Same goes on crystallinity quality of the samples that shows the same pattern as growth density. The physical properties of the ZnO nanostructures can be related to the immersion time and in turn influence the pH sensor performance. All deposited samples showed the ability to be applied as the sensing material for the EGFET pH sensor with the highest performance was obtained from the 3-hours sample having sensitivity of 56.0 mV/pH and 0.9997 linearity. The high sensitivity obtained from the 3-hour sample is related to high growth density of ZnO nanostructures that provide high surface area which facilities more contact between sensing membrane and pH buffer for ion adsorptions. |
| format |
Article |
| author |
Rosli, Aimi Bazilah Ismail, Ahmad Syakirin Awang, Zaiki Abdul Khalid, Muhammad Farid Shariffudin, Shafinaz Sobihana Herman, Sukreen Hana |
| author_facet |
Rosli, Aimi Bazilah Ismail, Ahmad Syakirin Awang, Zaiki Abdul Khalid, Muhammad Farid Shariffudin, Shafinaz Sobihana Herman, Sukreen Hana |
| author_sort |
Rosli, Aimi Bazilah |
| title |
Simple chemical bath deposited zinc oxide nanoflowers and their applications for extended-gate FET pH sensor / A. B. Rosli …[et al.] |
| title_short |
Simple chemical bath deposited zinc oxide nanoflowers and their applications for extended-gate FET pH sensor / A. B. Rosli …[et al.] |
| title_full |
Simple chemical bath deposited zinc oxide nanoflowers and their applications for extended-gate FET pH sensor / A. B. Rosli …[et al.] |
| title_fullStr |
Simple chemical bath deposited zinc oxide nanoflowers and their applications for extended-gate FET pH sensor / A. B. Rosli …[et al.] |
| title_full_unstemmed |
Simple chemical bath deposited zinc oxide nanoflowers and their applications for extended-gate FET pH sensor / A. B. Rosli …[et al.] |
| title_sort |
simple chemical bath deposited zinc oxide nanoflowers and their applications for extended-gate fet ph sensor / a. b. rosli …[et al.] |
| publisher |
Universiti Teknologi MARA |
| publishDate |
2019 |
| url |
http://ir.uitm.edu.my/id/eprint/48806/1/48806.pdf http://ir.uitm.edu.my/id/eprint/48806/ https://jeesr.uitm.edu.my |
| _version_ |
1706960441225248768 |
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13.211869 |