Hierarchically Grown NiO-Decorated Polyaniline-Reduced Graphene Oxide Composite for Ultrafast Sunlight-Driven Photocatalysis

Ahuja, Preety; Ujjain, Sanjeev Kumar; Arora, Indu; Samim, Mohd

doi:10.1021/acsomega.8b00765

Cited by 88 publications

(37 citation statements)

References 60 publications

(109 reference statements)

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“…Where C 0 , C t , k and t are the initial concentration, the final concentration, first-order rate constant and irradiation time. [50] The degradation of all dyes obeys a pseudo-first-order kinetic model (R 2 < 1) which was in worthy agreement with previous similar materials. [51,52,21] The k values were found to be 0.1997, 0.0521, and 0.1993 min À 1 , for MG, JK and LR, respectively under UV light illumination.…”

Section: Chemistryselectsupporting

confidence: 88%

Photocatalytic Degradation of Organic Dyes with Magnetically Separable PANI/Fe₃O₄ Composite under Both UV and Visible‐light Irradiation

et al. 2022

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The creation of a novel composite photocatalyst has gained great attention in the field of organic dye remediation. Herein, the PANI/Fe 3 O 4 photocatalyst has been prepared using the chemical oxidative polymerization of aniline. The as-prepared photocatalyst represents a denser and uniform morphology along with strong magnetic properties. The photocatalytic activity of the PANI/Fe 3 O 4 was investigated for the degradation of Malachite Green (MG), Jakazol Kala (JK) and Levafix Red (LR). In the presence of PANI/Fe 3 O 4 composite, the reaction rate constants were found to be 0.1997, 0.0521, and 0.1993 min À 1 for MG, JK and LR, under UV-light irradiation and 0.0522, 0.0491, 0.0544 min À 1 under visible light irradiation, respectively. The nanocomposite can be easily separated from the treated water and reused several times. The suppression of electron recombination, the reduced bandgap and the broad lightharvesting in both UV and visible-light regions contribute to the advanced photocatalytic performance of the PANI/Fe 3 O 4 .

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Section: Chemistryselectsupporting

confidence: 88%

Photocatalytic Degradation of Organic Dyes with Magnetically Separable PANI/Fe₃O₄ Composite under Both UV and Visible‐light Irradiation

et al. 2022

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“…20,22 Graphene and graphene oxide (GO) have excellent mechanical strength, electron transport properties, large specific surface area, good adsorption capacity, high chemical, and thermal stability. 21−23 GO and its nanocomposites have a wide range of applications as catalysts, 24−29 photocatalysts, 30−32 energy storage, 33 sensors, 34−36 hydrogen storage, 37 drug delivery, 38 biomedical devices, 39 super-capacitors, 40,41 and waste water treatment. 42,43 In the backdrop of their excellent synergistic action, GO-based nanocatalysts are rationalized using nanoparticles (NPs) adorning its surface for them to be used as heterogeneous catalysts to overcome different economic and environmental problems.…”

Section: Introductionmentioning

confidence: 99%

Fur-Imine-Functionalized Graphene Oxide-Immobilized Copper Oxide Nanoparticle Catalyst for the Synthesis of Xanthene Derivatives

et al. 2018

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Fur-imine-functionalized graphene oxide-immobilized copper oxide nanoparticles (Cu(II)-Fur-APTES/GO) are synthesized and found to be a cost-effective, efficient, and reusable heterogeneous nanocatalyst for the preparation of pharmaceutically important xanthene derivatives under greener solvent conditions. Cu(II)-Fur-APTES/GO exhibits excellent result in the synthesis of xanthenes with reduced reaction time (25−50 min) and higher yields (up to 95%) and has a simple procedure, ease of product separation, and no byproducts. Moreover, the nanocatalyst has a Cu loading of 13.5 at. % over functionalized GO which is far superior than the already known metal-based heterogeneous catalysts. The newly synthesized catalyst has been characterized by various physiochemical techniques such as X-ray photoelectron spectroscopy, X-ray diffraction, energy-dispersive X-ray, Raman spectroscopy for structural characterization, field emission scanning electron microscopy and high-resolution transmission electron microscopy for morphological characterization. The catalyst showed admirable recyclability up to five consecutive runs, and there was no appreciable loss in catalytic efficiency.

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“…Among them, NiO nanoparticles own high hole mobility, low-cost, unique electric, and catalytic properties. 76 Yin et al 77 designed and prepared the p-n heterojunction of TiO 2 /NiO hybrid shells by a combined sol-gel and hydrothermal strategy, as shown in Figures 3A-D. The NiO nanoparticles coated on the surface of TiO 2 could significantly enhance photocatalytic performance for H 2 production and dye degradation under visible light irradiation.…”

Section: Ni-based Oxides and Hydroxide Cocatalystsmentioning

confidence: 99%

“…Nickel oxides and hydroxides are more convenience to be prepared via some facile methods, or controlled their formation, structure, size, and morphology in comparison to other Ni‐based compounds. Among them, NiO nanoparticles own high hole mobility, low‐cost, unique electric, and catalytic properties 76 . Yin et al 77 designed and prepared the p‐n heterojunction of TiO 2 /NiO hybrid shells by a combined sol‐gel and hydrothermal strategy, as shown in Figures 3A‐D.…”

Section: Progress Of Ni‐based Cocatalysts For Hydrogen Evolutionmentioning

confidence: 99%

Recent progresses in photocatalytic hydrogen production: design and construction of Ni‐based cocatalysts

Liu

Zhuang

2020

Int J Energy Res

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Summary Up to now, much effort has focused on developing the highly efficiency composite photocatalysts by introducing cocatalysts in the photocatalytic hydrogen production reaction, because the proper cocatalysts can reduce activation energy, provide active sites, and suppress the reverse reaction. The transition metal nickel and its compounds acting as cocatalyst have received intensive attention because of their structural stability, facile preparation, and high performance in hydrogen evolution reaction, and are expected to replace the function of noble metals. This review emphasizes on the latest progresses that design and construction of composite photocatalyst using Ni‐based cocatalyst for enhanced hydrogen production, such as metal nickel, nickel sulfide, and nickel phosphide, will be presented. Then, some preparation strategies and influence factors of Ni‐based cocatalysts on enhanced photocatalytic hydrogen production are elucidated in detail. Finally, some challenge and perspective on the highly active cocatalysts in the area of photocatalytic hydrogen production from water splitting are also given.

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Hierarchically Grown NiO-Decorated Polyaniline-Reduced Graphene Oxide Composite for Ultrafast Sunlight-Driven Photocatalysis

Cited by 88 publications

References 60 publications

Photocatalytic Degradation of Organic Dyes with Magnetically Separable PANI/Fe₃O₄ Composite under Both UV and Visible‐light Irradiation

Photocatalytic Degradation of Organic Dyes with Magnetically Separable PANI/Fe₃O₄ Composite under Both UV and Visible‐light Irradiation

Fur-Imine-Functionalized Graphene Oxide-Immobilized Copper Oxide Nanoparticle Catalyst for the Synthesis of Xanthene Derivatives

Recent progresses in photocatalytic hydrogen production: design and construction of Ni‐based cocatalysts

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Hierarchically Grown NiO-Decorated Polyaniline-Reduced Graphene Oxide Composite for Ultrafast Sunlight-Driven Photocatalysis

Cited by 88 publications

References 60 publications

Photocatalytic Degradation of Organic Dyes with Magnetically Separable PANI/Fe3O4 Composite under Both UV and Visible‐light Irradiation

Photocatalytic Degradation of Organic Dyes with Magnetically Separable PANI/Fe3O4 Composite under Both UV and Visible‐light Irradiation

Fur-Imine-Functionalized Graphene Oxide-Immobilized Copper Oxide Nanoparticle Catalyst for the Synthesis of Xanthene Derivatives

Recent progresses in photocatalytic hydrogen production: design and construction of Ni‐based cocatalysts

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Photocatalytic Degradation of Organic Dyes with Magnetically Separable PANI/Fe₃O₄ Composite under Both UV and Visible‐light Irradiation

Photocatalytic Degradation of Organic Dyes with Magnetically Separable PANI/Fe₃O₄ Composite under Both UV and Visible‐light Irradiation