Toward the Development of Disposable Electrodes Based on Holmium Orthovanadate/<i>f</i>-Boron Nitride: Impacts and Electrochemical Performances of Emerging Inorganic Contaminants

Sriram, Balasubramanian; Baby, Jeena N.; Hsu, Yung−Fu; Wang, Sea-Fue; George, Matthieu

doi:10.1021/acs.inorgchem.1c01678

Cited by 31 publications

(24 citation statements)

References 67 publications

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“…REVOs are used as electrode modifiers owing to their high energy density, wide range of oxidation states, and layered structures . According to the dated research, CeVO 4 , , LaVO 4 , LuVO 4 , SmVO 4 , EuVO 4 , , HoVO 4 , and YVO 4 , are recognized as active electrode materials in various electrochemical applications due to their outstanding catalytic activity, structural stability, and optimal band gaps . In general, praseodymium (Pr 3+ ) is one of the potential rare-earth elements, which displays outstanding modes of electronic transitions and has a unique structure due to the presence of intestinal vacant space .…”

Section: Introductionmentioning

confidence: 99%

Surfactant-Assisted Synthesis of Praseodymium Orthovanadate Nanofiber-Supported NiFe-Layered Double Hydroxide Bifunctional Catalyst: The Electrochemical Detection and Degradation of Diphenylamine

et al. 2022

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Physiological storage disorders are caused by ineffective post-harvest handling of horticultural crops, particularly fruits. To address these post-harvest concerns, diphenylamine (DPAH •+ ) is widely used as a preservative to prevent fruit degradation and surface scald during storage around the world. Humans are negatively affected by the use of high concentrations of DPAH •+ because of the various health complications related to its exposure. As a result, accurate detection and quantification of DPAH •+ residues in treated fruits are critical. Rare earth metal orthovanadates, which have excellent physical and chemical properties, are potential materials for electrochemical sensors in this area. Herein, we present a simple and direct ultrasonication technique for the surfactant-assisted synthesis of praseodymium orthovanadate (PrVO 4 or PrV) loaded on nickel iron layered double hydroxide (NiFe-LDH) synthesized with deep eutectic solvent assistance, as well as its application as an effective catalyst in the detection and degradation of DPAH •+ in fruits and water samples. The current work presents supreme electrochemical features of a PrV@NiFe-LDH-modified screen-printed carbon electrode (SPCE) where cetyltrimethylammonium bromide (CTAB) surfactant-driven fabrication of PrV directs the formation of highly qualified engineered structures and the deep eutectic solvent based green synthesis of NiFe-LDH creates hierarchical lamellar structures following the principles of green chemistry. PrV and NiFe-LDH combine to produce a synergistic effect that improves the number of active sites, charge transfer kinetics, and electronic conductivity. Differential pulse voltammetry analysis of PrV@NiFe-LDH/SPCE reveals a dynamic working range (0.005−226.26 μM), increased sensitivity (133.13 μA μM −1 cm −2 ), enhanced photocatalytic activity, and low detection limit (0.001 μM), which are considered significant when compared with the former reported electrodes in the literature for the determination of DPAH ̇+ for its real-time applications.

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Section: Introductionmentioning

confidence: 99%

Surfactant-Assisted Synthesis of Praseodymium Orthovanadate Nanofiber-Supported NiFe-Layered Double Hydroxide Bifunctional Catalyst: The Electrochemical Detection and Degradation of Diphenylamine

et al. 2022

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“…Screen-printed carbon electrodes (SPCEs) are widely used in developing various electrochemical sensors as working electrodes that detect analyte species in the agricultural, ecological, and biomedical industries. , SPCE has a planar shape, and for electrochemical sensing, a few microliters of the sample are applied to the sensor’s surface in the form of a droplet. SPCE was chosen as the substrate electrode because of its multiple advantages, including low volume consumption, disposability, biocompatibility, durability, outstanding reproducibility, cost-effectiveness, design flexibility, and sample selection for onsite pollution detection. − Aforementioned distinguishing characteristics, a SPCE is a potential analyte detection working electrode.…”

Section: Introductionmentioning

confidence: 99%

Fabrication of Praseodymium Vanadate Nanoparticles on Disposable Strip for Rapid and Real-Time Amperometric Sensing of Arsenic Drug Roxarsone

et al. 2022

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Nanomaterials have versatile properties owing to their high surface-to-volume ratio and can thus be used in a variety of applications. This work focused on applying a facile hydrothermal strategy to prepare praseodymium vanadate nanoparticles due to the importance of nanoparticles in today's society and the fact that their synthesis might be a challenging endeavor. The structural and morphological characterizations were carried out to confirm the influence of the optimizations on the reaction's outcomes, which revealed praseodymium vanadate (PrVO 4 ) with a tetragonal crystal system. In this regard, the proposed development of electrochemical sensors based on the PrVO 4 nanocatalyst for the real-time detection of arsenic drug roxarsone (RXS) is a primary concern. The detection was measured by amperometric (i−t) signals where PrVO 4 /SPCE, as a new electrochemical sensing medium for RXS detection, increased the sensitivity of the sensor to about ∼2.5 folds compared to the previously reported ones. In the concentration range of 0.001−551.78 μM, the suggested PrVO 4 / SPCE sensor has a high sensitivity for RXS, with a detection limit of 0.4 nM. Furthermore, the impact of several selected potential interferences, operational stability (2000 s), and reproducibility measurements have no discernible effect on RXS sensing, making it the ideal sensing device feasible for technical analysis. The real-time analysis reveals the excellent efficiency and reliability of the prosed sensor toward RXS detection with favorable recovery ranges between ±97.00−99.66% for chicken, egg, water, and urine samples.

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“…In CBO, there exist divalent A II Cu ions (Cu + ) of the tetrahedral sites, where the trivalent B III Bi ion (Bi + ) cations occupy one-half (1/2) of the octahedral sites, whereas they are arranged with CuO 4 square planar groups that are associated to a distorted trigonal BiO 6 polyhedral, which is one essential factor of spinel structured compounds. − However, CBO delivers weak charge carrier mobility, and multiple experiments have been conducted to improve it. By controlling the morphology and hybridizing with immensely conductive materials, the electrical and electrochemical performance is improved. − …”

Section: Introductionmentioning

confidence: 99%

Construction of a Copper Bismuthate/Graphene Nanocomposite for Electrochemical Detection of Catechol

et al. 2022

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Binary metal oxides with carbon nanocomposites have received extensive attention as research hotspots in the electrochemistry field owing to their tunable properties and superior stability. This work illustrates the development of a facile sonochemical strategy for the synthesis of a copper bismuthate/graphene (GR) nanocomposite-modified screen-printed carbon electrode (CBO/GR/SPCE) for the electrochemical detection of catechol (CT). The formation of an as-prepared CBO/GR nanocomposite was comprehensively characterized. The electrochemical behavior of the CBO/GR/SPCE toward CT was investigated by voltammetry and amperometry techniques. The fabricated CBO/GR/SPCE manifests an excellent electrocatalytic performance toward CT with a lower peak potential and a higher current value compared to those of CBO/SPCE, GR/SPCE, and bare SPCE. It is attributed to enhanced electro-catalytic activity, synergetic effects, and good active sites of the CBO/GR nanocomposite. Under the electrochemical condition, the CBO/GR/SPCE displayed a wide linear sensing range, trace-level detection limit, acceptable sensitivity, and excellent selectivity. Furthermore, our proposed CBO/GR electrode was employed successfully for CT detection in water samples.

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Toward the Development of Disposable Electrodes Based on Holmium Orthovanadate/f-Boron Nitride: Impacts and Electrochemical Performances of Emerging Inorganic Contaminants

Cited by 31 publications

References 67 publications

Surfactant-Assisted Synthesis of Praseodymium Orthovanadate Nanofiber-Supported NiFe-Layered Double Hydroxide Bifunctional Catalyst: The Electrochemical Detection and Degradation of Diphenylamine

Surfactant-Assisted Synthesis of Praseodymium Orthovanadate Nanofiber-Supported NiFe-Layered Double Hydroxide Bifunctional Catalyst: The Electrochemical Detection and Degradation of Diphenylamine

Fabrication of Praseodymium Vanadate Nanoparticles on Disposable Strip for Rapid and Real-Time Amperometric Sensing of Arsenic Drug Roxarsone

Construction of a Copper Bismuthate/Graphene Nanocomposite for Electrochemical Detection of Catechol

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