A chitosan–Pt nanoparticles/carbon nanotubes-doped phosphomolybdate nanocomposite as a platform for the sensitive detection of nitrite in tap water

A composite multilayer film was fabricated based on H 7 P 2 Mo 17 V 1 O 62 (P 2 Mo 17 V)–carbon nanotubes (CNTs) and Pt–chitosan (Pt–CHIT) nanoparticles using layer-by-layer self-assembly method. The incorporation of CNTs and Pt–CHIT nanoparticles into the P 2 Mo 17 V-based composite film endowed th...

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Veröffentlicht in:	RSC advances 2016-01, Vol.6 (2), p.937-946
Hauptverfasser:	Bai, Zhenyuan, Zhou, Chunlei, Gao, Ning, Pang, Haijun, Ma, Huiyuan
Format:	Artikel
Sprache:	eng
Schlagworte:	Carbon nanotubes Chitosan Nanoparticles Nitrites Oxidation Self assembly Sensors Tap water
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creator	Bai, Zhenyuan Zhou, Chunlei Gao, Ning Pang, Haijun Ma, Huiyuan
description	A composite multilayer film was fabricated based on H 7 P 2 Mo 17 V 1 O 62 (P 2 Mo 17 V)–carbon nanotubes (CNTs) and Pt–chitosan (Pt–CHIT) nanoparticles using layer-by-layer self-assembly method. The incorporation of CNTs and Pt–CHIT nanoparticles into the P 2 Mo 17 V-based composite film endowed the modified electrode with a fast electron transfer rate and high electrocatalytic activity towards nitrite oxidation. The as-prepared sensor showed a fast response to nitrite with a good linear concentration range from 1.25 × 10 −7 M to 4.167 × 10 −3 M and a high sensitivity of 0.019 μA mM −1 . Most noteworthy is its ultra-low detection limit of 3.8 × 10 −9 M at the signal-to-noise ratio of 3 under optimal experimental conditions, which was below the detection limit of the vast majority of nitrite sensors reported before. The as-prepared sensor was able to distinguish the oxidation response of common interferences in solution mixtures under multiple potentials. It was successfully applied for determination of nitrite in tap water samples with satisfactory results.
doi_str_mv	10.1039/C5RA19383D
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The incorporation of CNTs and Pt–CHIT nanoparticles into the P 2 Mo 17 V-based composite film endowed the modified electrode with a fast electron transfer rate and high electrocatalytic activity towards nitrite oxidation. The as-prepared sensor showed a fast response to nitrite with a good linear concentration range from 1.25 × 10 −7 M to 4.167 × 10 −3 M and a high sensitivity of 0.019 μA mM −1 . Most noteworthy is its ultra-low detection limit of 3.8 × 10 −9 M at the signal-to-noise ratio of 3 under optimal experimental conditions, which was below the detection limit of the vast majority of nitrite sensors reported before. The as-prepared sensor was able to distinguish the oxidation response of common interferences in solution mixtures under multiple potentials. 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The incorporation of CNTs and Pt–CHIT nanoparticles into the P 2 Mo 17 V-based composite film endowed the modified electrode with a fast electron transfer rate and high electrocatalytic activity towards nitrite oxidation. The as-prepared sensor showed a fast response to nitrite with a good linear concentration range from 1.25 × 10 −7 M to 4.167 × 10 −3 M and a high sensitivity of 0.019 μA mM −1 . Most noteworthy is its ultra-low detection limit of 3.8 × 10 −9 M at the signal-to-noise ratio of 3 under optimal experimental conditions, which was below the detection limit of the vast majority of nitrite sensors reported before. The as-prepared sensor was able to distinguish the oxidation response of common interferences in solution mixtures under multiple potentials. It was successfully applied for determination of nitrite in tap water samples with satisfactory results.</abstract><doi>10.1039/C5RA19383D</doi><tpages>10</tpages></addata></record>
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subjects	Carbon nanotubes Chitosan Nanoparticles Nitrites Oxidation Self assembly Sensors Tap water
title	A chitosan–Pt nanoparticles/carbon nanotubes-doped phosphomolybdate nanocomposite as a platform for the sensitive detection of nitrite in tap water
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