Zinc oxide and gold textured Janus nanowire integration in an impedimetric sensor for leptospirosis DNA-biomarker recognition
A �Janus particle� refers to the production of two materials in a single system and shows a difference in physical characteristics, and two surfaces participate in the formation with different chemistries. This research generated the Janus using a hybrid of zinc oxide (ZnO) and gold (Au) on the...
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| Format: | Article |
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John Wiley and Sons Inc
2022
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| Online Access: | http://scholars.utp.edu.my/id/eprint/33945/ https://www.scopus.com/inward/record.uri?eid=2-s2.0-85123498274&doi=10.1002%2fbab.2316&partnerID=40&md5=83dca626e34bb2f04a8e682a74876331 |
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| Summary: | A �Janus particle� refers to the production of two materials in a single system and shows a difference in physical characteristics, and two surfaces participate in the formation with different chemistries. This research generated the Janus using a hybrid of zinc oxide (ZnO) and gold (Au) on the sensor surface toward making high-performance DNA sensors. The Janus ZnO/Au-textured film was synthesized via the one-step sol�gel method, which involves a suitable ratio of a mixture of ZnO sol seed solution. The synthesized Janus ZnO/Au-textured film undergoes a low-temperature aqueous hydrothermal route to synthesize quasi-one-dimensional nanowires. The average grain size in the Janus ZnO/Au nanotextured wire was 41.60 nm. The fabricated nanotextured wire was further optimized by tuning the thickness and characterized by XRD and high-resolution microscopy. Electrical characterization was conducted on the Janus ZnO/Au nanotextured wire coupled with an interdigitated electrode sensor to detect the specific leptospirosis DNA strand. The generated device is capable of detecting lower DNA concentration at 1 � 10�13 M with a sensitivity of 8.54 MΩ M�1 cm�2. The high performance is attained on linear concentrations of 10�6�10�13 M with the determination coefficient, �I = 135437.63C�3609.07� R2 = 0.9551. A potential strategy is proposed as a base for developing different high-performance sensors. © 2022 International Union of Biochemistry and Molecular Biology, Inc. |
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