Synthesis of BiVO4-GO-PTFE nanocomposite photocatalysts for high efficient visible-light-induced photocatalytic performance for dyes

Dowla, Biswas Md Rokon; Cho, Ju Yong; Jang, Won Kweon; Oh, Won‐Chun

doi:10.1007/s10854-017-7386-4

Cited by 16 publications

(5 citation statements)

References 41 publications

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“…The photodegradation results determined that 64% of pollutants in wastewater were destructed at nearly 6 h under solar light irradiation [42]. In another investigation 90% of methylene blue dye pollutant was destructed over BiVO 4 -graphene oxide-PTFE nanocomposite in 180 min [43]. The 500 W Xe lamp was used as the visible light irradiation in this work.…”

Section: Comparison Studymentioning

confidence: 80%

Synthesis of pineapple slab like morphology of ternary BiVO4/graphene/porphyrin nanocomposite with enhanced visible light photocatalytic activity

2020

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In this work, composites of BiVO 4 with different contents of graphene are synthesized. Photocatalytic investigations determine that the prepared BiVO 4-graphene (BVG) nanocomposite with 0.5% of graphene has higher photocatalytic activity among the synthesized nanocomposites. The photocatalytic efficiency of BVG is 2 times higher than BiVO 4. To improve the photocatalytic activity under visible light irradiation, the prepared nanocomposite was photosensitized with porphyrin as strong light harvesting agent. The obtained BVG photosensitized with porphyrin (BVG-P) could completely remove methyl orange dyer in 180 min. Slab-like morphology and the incorporation of porphyrin show to be key factors in high photocatalytic activity of BVG-P.

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Section: Comparison Studymentioning

confidence: 80%

Synthesis of pineapple slab like morphology of ternary BiVO4/graphene/porphyrin nanocomposite with enhanced visible light photocatalytic activity

2020

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“…Yttrium also shows a high surface-to-volume ratio, quick oxygen ion mobility, productive charge transferability, chemical inertness, sharp line emission bands, and biocompatibility. − , Besides, it is known to have a high quantum yield, amazing photostability, and a low dielectric constant ( k ). Thus, it might have a potential application toward the development of biosensors. − , Tungstate (WO 4 ) has attracted significant consideration due to its unprecedented physicochemical properties and reasonable applications as electrode material in different areas, e.g., photoanodes, supercapacitors, memory devices, and humidity sensors. − , Finally, SiO 2 materials have a large surface area (700 and 500 m 2 g –1 ), good biocompatibility, nontoxicity, high ionic conductivity, and good chemical and thermal stability, making them perfect for use as supports for adsorption, catalysis, chemical separations, biosensors, and so on. − , …”

Section: Introductionmentioning

confidence: 99%

“…[33][34][35][36][37][38]71 Finally, SiO 2 materials have a large surface area (700 and 500 m 2 g −1 ), good biocompatibility, nontoxicity, high ionic conductivity, and good chemical and thermal stability, making them perfect for use as supports for adsorption, catalysis, chemical separations, biosensors, and so on. [39][40][41][42]72 However, the utilization of the YInWO 4 -G-SiO 2 (YIWGS) nanostructure has not been reported yet. Considering that graphene and YInWO 4 −SiO 2 have great physical and electrical properties, they also have great electrochemical stability to make a steady sensing framework for the preparation of graphene-based quaternary nanocomposites.…”

Section: Introductionmentioning

confidence: 99%

New Design of Active Material Based on YInWO₄-G-SiO₂for a Urea Sensor and High Performance for Nonenzymatic Electrical Sensitivity

Fatema

Jung

Liu

et al. 2020

ACS Biomater. Sci. Eng.

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In the present study, electrochemical sensing for urea was proposed utilizing graphene-based quaternary nanocomposites YInWO4-G-SiO2 (YIWGS). These YIWGS nanocomposites were utilized due to their exceptionally delicate determination of urea with the lowest detection limit (0.01 mM). These YIWGS composites were developed through a simple self-assembly method. From physical characterization, we found that the YIWGS composites are crystalline in nature (powdered X-ray diffraction), and Fourier transform infrared (FTIR) spectroscopy analysis provided the surface functionality and bonding. Scanning electron microscopy (SEM) studies indicated the morphology characteristics of the as-synthesized composites and the high-resolution transmission electron microscopy (HRTEM) image supported the formation of cubic or hexagonal morphology of the YIW nanocomposites. The YIWGS sensor showed a great electroanalytical sensing performance of 0.07 mM urea with a sensitivity of 0.06 mA cm–2, an expansive linear range of 0.7–1.5 mM with a linear response (R2 1/4 0.99), and an eminent reaction time of around 2 s. It also displayed a good linear response toward urea with negligible interferences from normal coinciding species in urine samples.

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“…Polypyrrole mixed with graphene as a functioning material has been set up for application in gas thin-film sensors. Graphene has numerous excellent electrical properties since it is an allotrope of carbon with a single two-dimensional (2D) layer of sp 2 -hybridized carbon atoms. − Graphene, graphene oxide (GO), and reduced graphene oxide (rGO) as materials have great application potential for sensing. The two-dimensional structure of graphene has a higher sensing territory for every unit of volume and less noise than other solid-state sensors.…”

Section: Introductionmentioning

confidence: 99%

Polypyrrole-Bonded Quaternary Semiconductor LiCuMo₂O₁₁–Graphene Nanocomposite for a Narrow Band Gap Energy Effect and Its Gas-Sensing Performance

Fatema

Liu

et al. 2020

ACS Omega

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In this study, we demonstrate the fabrication and characterization of a new quaternary semiconductor nanocomposite of LiCuMo 2 O 11 /graphene oxide/polypyrrole (LCMGP) via a hydrothermal method and testing of an NH 3 and H 2 SO 4 sensor operating in gaseous states at room temperature. We used X-ray diffraction, transmission electron microscopy, scanning electron microscopy, energy-dispersive X-ray spectroscopy, and X-ray photoelectron spectroscopy to characterize the properties of LCMGP nanostructures. Our sensor is capable of detecting NH 3 and H 2 SO 4 and quantifying their concentration in the gas flow. These results have been confirmed by exposing the sensor to different concentrations of NH 3 and H 2 SO 4 (100–1000 ppm). The obtained results confirm the exceptional sensing properties of the graphene–polymer-combined quaternary semiconductor nanocomposite related to the oxidation–reduction process that can be used for detection, identification, and quantification purposes.

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Synthesis of BiVO4-GO-PTFE nanocomposite photocatalysts for high efficient visible-light-induced photocatalytic performance for dyes

Cited by 16 publications

References 41 publications

Synthesis of pineapple slab like morphology of ternary BiVO4/graphene/porphyrin nanocomposite with enhanced visible light photocatalytic activity

Synthesis of pineapple slab like morphology of ternary BiVO4/graphene/porphyrin nanocomposite with enhanced visible light photocatalytic activity

New Design of Active Material Based on YInWO₄-G-SiO₂for a Urea Sensor and High Performance for Nonenzymatic Electrical Sensitivity

Polypyrrole-Bonded Quaternary Semiconductor LiCuMo₂O₁₁–Graphene Nanocomposite for a Narrow Band Gap Energy Effect and Its Gas-Sensing Performance

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Synthesis of BiVO4-GO-PTFE nanocomposite photocatalysts for high efficient visible-light-induced photocatalytic performance for dyes

Cited by 16 publications

References 41 publications

Synthesis of pineapple slab like morphology of ternary BiVO4/graphene/porphyrin nanocomposite with enhanced visible light photocatalytic activity

Synthesis of pineapple slab like morphology of ternary BiVO4/graphene/porphyrin nanocomposite with enhanced visible light photocatalytic activity

New Design of Active Material Based on YInWO4-G-SiO2for a Urea Sensor and High Performance for Nonenzymatic Electrical Sensitivity

Polypyrrole-Bonded Quaternary Semiconductor LiCuMo2O11–Graphene Nanocomposite for a Narrow Band Gap Energy Effect and Its Gas-Sensing Performance

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Product

Resources

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New Design of Active Material Based on YInWO₄-G-SiO₂for a Urea Sensor and High Performance for Nonenzymatic Electrical Sensitivity

Polypyrrole-Bonded Quaternary Semiconductor LiCuMo₂O₁₁–Graphene Nanocomposite for a Narrow Band Gap Energy Effect and Its Gas-Sensing Performance