Hydrothermal-Assisted Synthesis of TiO2@NiMoO4 Nanocomposites and Evaluation of Their Photocatalysis Properties

Bakhshali-Dehkordy, Raziyeh; Aghajani, Zahra

doi:10.1007/s11664-018-6705-8

Cited by 16 publications

(4 citation statements)

References 43 publications

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“…The particle size and surface morphology of the Fe 3 O 4 @TiO 2 @ILs magnetic nanocatalyst were investigated using field emission scanning electron microscopy (Figure ). This magnetic nanocatalyst has a good morphology when the beet extract was used . These results show that Fe 3 O 4 @TiO 2 @ILs nanocatalyst has a spherical shape and this catalyst was obtained with an average diameter around 20–30 nm as confirmed by XRD analysis.…”

Section: Resultssupporting

confidence: 56%

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Novel and Green Preparation of Fe₃O₄@TiO₂‐Immobilized‐ILs Based on DABCO for Highly Efficient Synthesis of Primido[4,5‐d]pyrimidines

Ghasemzadeh

Bakhshali‐Dehkordi

2020

ChemistrySelect

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Recently, ionic liquids immobilized on magnetic nanoparticles (MNPs) have drawn increasing attentions in organic synthesis and separation technologies and gained substantial progresses. In this study, the Fe3O4@TiO2@ILs nanocatalyst was first synthesized and characterized by using techniques such as Fourier transform infrared spectroscopy (FT‐IR), energy‐dispersive X‐ray (EDX), vibrating sample magnetometer (VSM), field emission scanning electron microscopy (FE‐SEM), powder X‐ray diffraction (XRD), thermogravimetric analysis (TGA) and transmission electron microscopy (TEM). The efficiency of the nanocatalyst was investigated in the preparation of pyrimido[4,5‐d]pyrimidine derivatives under solvent‐free conditions. The nanocatalyst demonstrated excellent catalytic activity and the products were synthesized in good to excellent yields. Moreover, the recoverability and reusability of the catalyst were investigated to show the effect of ionic liquid moieties on the stabilization of Fe3O4@TiO2@ILs species during the reactions. Our study showed that the nanocatalyst could be recovered and reused at least seven times without any appreciable decrease in activity which confirmed its high efficiency and high stability under the reaction conditions.

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Section: Resultssupporting

confidence: 56%

“…This magnetic nanocatalyst has a good morphology when the beet extract was used. [52] These results show that Fe 3 O 4 @TiO 2 @ILs nanocatalyst has a spherical shape and this catalyst was obtained with an average diameter around 20-30 nm as confirmed by XRD analysis.…”

Section: Fe-sem Imagessupporting

confidence: 66%

Novel and Green Preparation of Fe₃O₄@TiO₂‐Immobilized‐ILs Based on DABCO for Highly Efficient Synthesis of Primido[4,5‐d]pyrimidines

Ghasemzadeh

Bakhshali‐Dehkordi

2020

ChemistrySelect

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“…Moreover, after encapsulation of the drug, the crystallite structure of TiO 2 is preserved (Figure 4). [34,35]…”

Section: X-ray Diffraction Analysismentioning

confidence: 99%

Synthesis and Application of ZIF‐8 MOF Incorporated in a TiO₂@Chitosan Nanocomposite as a Strong Nanocarrier for the Drug Delivery of Acyclovir

2020

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Recently, metal‐organic frameworks (MOFs) have been effectively established as potential nanocarriers for the drug delivery. In this study, we have examined a novel framework containing TiO2@Chitosan@ZIF‐8 for the delivery of acyclovir (ACV). The structure elucidation and physicochemical characterization of the prepared nanocarrier were investigated by various spectroscopic techniques such as Fourier‐transform infrared spectroscopy (FT‐IR), ultraviolet‐visible spectroscopy (UV‐Vis), energy‐dispersive X‐ray spectroscopy (EDX), X‐ray diffraction (XRD), field emission scanning electron microscopy (FE‐SEM), brunauer‐emmett‐teller (BET), and thermal gravimetric analysis (TGA). The obtained results demonstrated that 90 % of the acyclovir was loaded on the TiO2@Chitosan@ZIF‐8 framework. The drug release study was performed in PBS (phosphate buffer saline, pH:7.4) and AB (acetate buffer, pH:5) solutions, which showed 78 % and 82 % release within 3 days.

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“…Intensive studies have been carried out on the synthesis of NiMoO 4 with different morphologies such as nanorods [10], nanowires [11][12][13], nano-spheres [14], and nanosheets [15][16][17] for various application. Most of these studies used the hydrothermal method [8,[10][11][12][13][14][15][18][19][20][21][22][23][24][25] that requires autoclave equipped with high-pressure and high-temperature, which finally resulted to the particles with large sizes and some of the papers used sonochemical [26], microwave [27], Sol-Gel [28], electrodeposition [17], and co-precipitation method [29,30]. Obviously, NiMoO 4 synthesis is much less achieved by chemical precipitation than the hydrothermal method.…”

Section: Introductionmentioning

confidence: 99%

Synthesis of NiMoO4/3D-rGO Nanocomposite in Alkaline Environments for Supercapacitor Electrodes

et al. 2019

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Although Graphene oxide (GO)-based materials is known as a favorable candidate for supercapacitors, its conductivity needs to be increased. Therefore, this study aimed to investigate the performance of GO-based supercapicitor with new methods. In this work, an ammonia solution has been used to remove the oxygen functional groups of GO. In addition, a facile precipitation method was performed to synthesis a NiMoO4/3D-rGO electrode with purpose of using synergistic effects of rGO conductivity properties as well as NiMoO4 pseudocapacitive behavior. The phase structure, chemical bands and morphology of the synthesized powders were investigated by X-ray diffraction (XRD), Raman spectroscopy, and field emission secondary electron microscopy (FE-SEM). The electrochemical results showed that the NiMoO4/3D-rGO(II) electrode, where ammonia has been used during the synthesis, has a capacitive performance of 932 Fg−1. This is higher capacitance than NiMoO4/3D-rGO(I) without using ammonia. Furthermore, the NiMoO4/3D-rGO(II) electrode exhibited a power density of up to 17.5 kW kg−1 and an energy density of 32.36 Wh kg−1. These results showed that ammonia addition has increased the conductivity of rGO sheets, and thus it can be suggested as a new technique to improve the capacitance.

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Hydrothermal-Assisted Synthesis of TiO2@NiMoO4 Nanocomposites and Evaluation of Their Photocatalysis Properties

Cited by 16 publications

References 43 publications

Novel and Green Preparation of Fe₃O₄@TiO₂‐Immobilized‐ILs Based on DABCO for Highly Efficient Synthesis of Primido[4,5‐d]pyrimidines

Novel and Green Preparation of Fe₃O₄@TiO₂‐Immobilized‐ILs Based on DABCO for Highly Efficient Synthesis of Primido[4,5‐d]pyrimidines

Synthesis and Application of ZIF‐8 MOF Incorporated in a TiO₂@Chitosan Nanocomposite as a Strong Nanocarrier for the Drug Delivery of Acyclovir

Synthesis of NiMoO4/3D-rGO Nanocomposite in Alkaline Environments for Supercapacitor Electrodes

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Hydrothermal-Assisted Synthesis of TiO2@NiMoO4 Nanocomposites and Evaluation of Their Photocatalysis Properties

Cited by 16 publications

References 43 publications

Novel and Green Preparation of Fe3O4@TiO2‐Immobilized‐ILs Based on DABCO for Highly Efficient Synthesis of Primido[4,5‐d]pyrimidines

Novel and Green Preparation of Fe3O4@TiO2‐Immobilized‐ILs Based on DABCO for Highly Efficient Synthesis of Primido[4,5‐d]pyrimidines

Synthesis and Application of ZIF‐8 MOF Incorporated in a TiO2@Chitosan Nanocomposite as a Strong Nanocarrier for the Drug Delivery of Acyclovir

Synthesis of NiMoO4/3D-rGO Nanocomposite in Alkaline Environments for Supercapacitor Electrodes

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Novel and Green Preparation of Fe₃O₄@TiO₂‐Immobilized‐ILs Based on DABCO for Highly Efficient Synthesis of Primido[4,5‐d]pyrimidines

Novel and Green Preparation of Fe₃O₄@TiO₂‐Immobilized‐ILs Based on DABCO for Highly Efficient Synthesis of Primido[4,5‐d]pyrimidines

Synthesis and Application of ZIF‐8 MOF Incorporated in a TiO₂@Chitosan Nanocomposite as a Strong Nanocarrier for the Drug Delivery of Acyclovir