An improved non-enzymatic electrochemical sensor amplified with CuO nanostructures for sensitive determination of uric acid

An improved non-enzymatic electrochemical sensor amplified with CuO nanostructures for sensitive determination of uric acid

This study displays the facile and fluent electrochemical determination of uric acid (UA) through exceptional copper oxide nanostructures (CuO), as an effective sensing probe. The copper oxide nanostructures were fabricated via an aqueous chemical growth method using sodium hydroxide as a reducing a...

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Main Authors: Buledi Jamil A., Ameen Sidra, Memon Saba A., Fatima Almas, Solangi Amber R., Mallah Arfana, Karimi Fatemeh, Malakmohammadi Salima, Agarwal Shilpi, Gupta Vinod Kumar
Format: Article
Language:English
Published: De Gruyter 2021-04-01
Series:Open Chemistry
Subjects:
copper oxide nanostructures
electrochemical sensor
modified sensor
uric acid sensor
Online Access:https://doi.org/10.1515/chem-2021-0029
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spelling doaj-2f27817ba83a423d9edbf75a475521c32021-10-03T07:42:27ZengDe GruyterOpen Chemistry2391-54202021-04-0119148149110.1515/chem-2021-0029An improved non-enzymatic electrochemical sensor amplified with CuO nanostructures for sensitive determination of uric acidBuledi Jamil A.0Ameen Sidra1Memon Saba A.2Fatima Almas3Solangi Amber R.4Mallah Arfana5Karimi Fatemeh6Malakmohammadi Salima7Agarwal Shilpi8Gupta Vinod Kumar9National Centre of Excellence in Analytical Chemistry, University of Sindh, 76080, Jamshoro, PakistanNational Centre of Excellence in Analytical Chemistry, University of Sindh, 76080, Jamshoro, PakistanNational Centre of Excellence in Analytical Chemistry, University of Sindh, 76080, Jamshoro, PakistanNational Centre of Excellence in Analytical Chemistry, University of Sindh, 76080, Jamshoro, PakistanNational Centre of Excellence in Analytical Chemistry, University of Sindh, 76080, Jamshoro, PakistanM. A. Kazi Institute of Chemistry, University of Sindh, 76080, Jamshoro, PakistanDepartment of Chemical Engineering, Quchan University of Technology, Quchan, IranDepartment of Chemical Engineering, Quchan University of Technology, Quchan, IranCenter of Excellence for Advanced Materials Research, King Abdulaziz University, Jeddah, Saudi ArabiaCenter of Excellence for Advanced Materials Research, King Abdulaziz University, Jeddah, Saudi ArabiaThis study displays the facile and fluent electrochemical determination of uric acid (UA) through exceptional copper oxide nanostructures (CuO), as an effective sensing probe. The copper oxide nanostructures were fabricated via an aqueous chemical growth method using sodium hydroxide as a reducing agent, which massively hold hydroxide source. Copper oxide nanostructures showed astonishing electrocatalytic behavior in the detection of UA. Different characterization techniques such as XRD, FESEM, and EDS were exploited to determine crystalline nature, morphologies, and elemental composition of synthesized nanostructures. The cyclic voltammetry (CV) was subjected to investigate the electrochemical performance of UA using copper oxide nanostructures modified glassy carbon electrode CuO/GCE. The CV parameters were optimized at a scan rate of 50 mV/s with −0.7 to 0.9 potential range, and the UA response was investigated at 0.4 mV. PBS buffer of pH 7.4 was exploited as a supporting electrolyte. The linear dynamic range for UA was 0.001–351 mM with a very low limit of detection observed as 0.6 µM. The proposed sensor was successfully applied in urine samples for the detection of UA with improved sensitivity and selectivity.https://doi.org/10.1515/chem-2021-0029copper oxide nanostructureselectrochemical sensormodified sensoruric acid sensor
collection DOAJ
language English
format Article
sources DOAJ
author Buledi Jamil A.
Ameen Sidra
Memon Saba A.
Fatima Almas
Solangi Amber R.
Mallah Arfana
Karimi Fatemeh
Malakmohammadi Salima
Agarwal Shilpi
Gupta Vinod Kumar
spellingShingle Buledi Jamil A.
Ameen Sidra
Memon Saba A.
Fatima Almas
Solangi Amber R.
Mallah Arfana
Karimi Fatemeh
Malakmohammadi Salima
Agarwal Shilpi
Gupta Vinod Kumar
An improved non-enzymatic electrochemical sensor amplified with CuO nanostructures for sensitive determination of uric acid
Open Chemistry
copper oxide nanostructures
electrochemical sensor
modified sensor
uric acid sensor
author_facet Buledi Jamil A.
Ameen Sidra
Memon Saba A.
Fatima Almas
Solangi Amber R.
Mallah Arfana
Karimi Fatemeh
Malakmohammadi Salima
Agarwal Shilpi
Gupta Vinod Kumar
author_sort Buledi Jamil A.
title An improved non-enzymatic electrochemical sensor amplified with CuO nanostructures for sensitive determination of uric acid
title_short An improved non-enzymatic electrochemical sensor amplified with CuO nanostructures for sensitive determination of uric acid
title_full An improved non-enzymatic electrochemical sensor amplified with CuO nanostructures for sensitive determination of uric acid
title_fullStr An improved non-enzymatic electrochemical sensor amplified with CuO nanostructures for sensitive determination of uric acid
title_full_unstemmed An improved non-enzymatic electrochemical sensor amplified with CuO nanostructures for sensitive determination of uric acid
title_sort improved non-enzymatic electrochemical sensor amplified with cuo nanostructures for sensitive determination of uric acid
publisher De Gruyter
series Open Chemistry
issn 2391-5420
publishDate 2021-04-01
description This study displays the facile and fluent electrochemical determination of uric acid (UA) through exceptional copper oxide nanostructures (CuO), as an effective sensing probe. The copper oxide nanostructures were fabricated via an aqueous chemical growth method using sodium hydroxide as a reducing agent, which massively hold hydroxide source. Copper oxide nanostructures showed astonishing electrocatalytic behavior in the detection of UA. Different characterization techniques such as XRD, FESEM, and EDS were exploited to determine crystalline nature, morphologies, and elemental composition of synthesized nanostructures. The cyclic voltammetry (CV) was subjected to investigate the electrochemical performance of UA using copper oxide nanostructures modified glassy carbon electrode CuO/GCE. The CV parameters were optimized at a scan rate of 50 mV/s with −0.7 to 0.9 potential range, and the UA response was investigated at 0.4 mV. PBS buffer of pH 7.4 was exploited as a supporting electrolyte. The linear dynamic range for UA was 0.001–351 mM with a very low limit of detection observed as 0.6 µM. The proposed sensor was successfully applied in urine samples for the detection of UA with improved sensitivity and selectivity.
topic copper oxide nanostructures
electrochemical sensor
modified sensor
uric acid sensor
url https://doi.org/10.1515/chem-2021-0029
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