Main Page
About Science
Faculty Deanship
Letter of Dean
Overview of Deanship
Vice Deans
Vice Dean
Letter of Vice-dean
Overview of Vice-deanship
Vice Dean for Graduate Studies
Letter of Vice Dean for Graduate Studies
Overview of Vice Dean of Postgraduate Studies
Research and Innovation Unit
Vice Dean for Girls Campus
Faculty Management
Letter of Managing Director-Boys Campus
Letter of Managing Director-Girls Campus
Overview of Management
Educational Affairs
Males Campus
Staff
Females Campus
Contact Us
Research
عربي
English
About
Admission
Academic
Research and Innovations
University Life
E-Services
Search
Faculty of Sciences
Document Details
Document Type
:
Article In Journal
Document Title
:
Development of 4-methoxyphenol chemical sensor based on NiS2-CNT nanocomposites
Development of 4-methoxyphenol chemical sensor based on NiS2-CNT nanocomposites
Document Language
:
English
Abstract
:
Nickel disulphide decorated carbon nanotube nanocomposites (NiS2-CNT NCs) was synthesized by the wet-chemical method in alkaline medium. Characterization of the resulting NiS2-CNT NCs was performed in details by field emission scanning electron microscopy (FESEM) attached with energy-dispersive spectroscopy (EDS), X-ray photoelectron spectroscopy (XPS), UV/vis. spectroscopy, FT-IR spectroscopy, and Xray diffraction pattern (XRD). Glassy carbon electrode (GCE; Surface area: 0.0316 cm(2)) was fabricated with NiS2-CNT NCs and developed in chemical sensing performance by a simple and reliable I-V method. Toxic chemical 4-methoxyphenol (4-MP) was used as a target analyte in selectivity study, which exhibits a fast response towards NiS2-CNT NCs fabricated GCE sensor by the I-V method. It also displayed an excellent sensitivity, lower-detection limit, large linear dynamic range, long-term stability, and reproducibility. In analytical investigation, the calibration plot was found linear (r(2): 0.8744) over a large concentration range (from 0.1 nM to 10.0 mM), where the sensitivity was around 632.9224 mu A mM(-1) cm(-2) with a very low detection limit (LOD) of 30.0 +/- 0.02 pM (Based on the S/N=3). Potentials of NiS2-CNT NCs in terms of chemical sensing are also discussed in this report. This approach is introduced as a well-organized route of efficient phenolic sensor development in environmental and healthcare fields in broad scales.
ISSN
:
1876-1070
Journal Name
:
JOURNAL OF THE TAIWAN INSTITUTE OF CHEMICAL ENGINEERS
Volume
:
64
Issue Number
:
64
Publishing Year
:
1437 AH
2016 AD
Article Type
:
Article
Added Date
:
Monday, August 7, 2017
Researchers
Researcher Name (Arabic)
Researcher Name (English)
Researcher Type
Dr Grade
Email
M Rahman
Rahman, M
Researcher
J Ahmed
Ahmed, J
Researcher
I Siddiquey
Siddiquey, I
Researcher
A Asiri
Asiri, A
Researcher
M Hasnat
Hasnat, M
Researcher
Files
File Name
Type
Description
42496.pdf
pdf
Back To Researches Page