M
Mohammad Musarraf Hussain
Researcher at Jagannath University
Publications - 51
Citations - 1304
Mohammad Musarraf Hussain is an academic researcher from Jagannath University. The author has contributed to research in topics: Fourier transform infrared spectroscopy & Detection limit. The author has an hindex of 18, co-authored 49 publications receiving 1019 citations. Previous affiliations of Mohammad Musarraf Hussain include King Abdulaziz University & University of Bergen.
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Journal ArticleDOI
Arsenic sensor development based on modification with (E)-N′-(2-nitrobenzylidine)-benzenesulfonohydrazide: a real sample analysis
Mohammed M. Rahman,Mohammad Musarraf Hussain,Mohammad Musarraf Hussain,Muhammad Nadeem Arshad,Md. Rabiul Awual,Abdullah M. Asiri +5 more
TL;DR: In this article, the NBBSH/GCE sensor exhibited enhanced sensing performances such as sensitivity, limit of detection (LOD), linear dynamic range (LDR), and long-term stability towards selective arsenic ions.
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Non-enzymatic simultaneous detection of L-glutamic acid and uric acid using mesoporous Co3O4 nanosheets
TL;DR: In this paper, two selective L-glutamic acid (L-GA) and uric acid (UA) biological sensors were obtained via fabrication of a thin layer of cobalt oxide nanosheets onto a glassy carbon electrode (GCE, surface area: 0.0316 cm2).
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Ultrasensitive and selective 4-aminophenol chemical sensor development based on nickel oxide nanoparticles decorated carbon nanotube nanocomposites for green environment.
TL;DR: It is suggested that a pioneer and selective development of 4-AP sensitive sensor using NiO·CNT NCs by a facile and reliable current vs voltage (I-V) method for the major application of toxic agents in biological, green environmental, and health-care fields in near future.
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A novel approach towards hydrazine sensor development using SrO·CNT nanocomposites
TL;DR: In this article, Strontium oxide nanoparticle decorated carbon nanotube nanocomposites (SrO·CNT NCs) were prepared in alkaline medium using a wet-chemical technique at low temperature.
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Hg2+ Sensor Development Based on (E)-N′-Nitrobenzylidene-Benzenesulfonohydrazide (NBBSH) Derivatives Fabricated on a Glassy Carbon Electrode with a Nafion Matrix
TL;DR: The modified cationic sensor exhibited enhanced chemical performances, such as higher sensitivity, linear dynamic range, limit of detection (LOD), reproducibility, and long-term stability toward Hg2+.