Magnetic SiO 2 @CoFe 2 O 4 nanoparticles decorated on graphene oxide as efficient adsorbents for the removal of anionic pollutants from water

Santhosh, Chella; Daneshvar, Ehsan; Kollu, Pratap; Peräniemi, Sirpa; Grace, Andrews Nirmala; Bhatnagar, Amit

doi:10.1016/j.cej.2017.03.144

Cited by 104 publications

(33 citation statements)

References 84 publications

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“…In both of the blue and pink spectra, the bands observed at 1631 cm −1 and broad band around 3600–3200 cm −1 correspond to the O–H bond bending vibration and stretching mode of water chemisorbed on MNP's surface . The peaks are assigned with the reported work . For DA loaded particles we see some new peaks with two broad bands at ∼3500 cm −1 are assigned to the stretching of N−H and O−H, and two peaks observed at 2800 cm −1 are may be due to the secondary amines.…”

Section: Resultssupporting

confidence: 55%

Dopamine Loaded SiO₂ Coated Fe₃O₄ Magnetic Nanoparticles: A New Anticancer Agent in pH‐Dependent Drug Delivery

2019

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In this present study, we have shown dopamine acts as very good agent in killing cancer cells with very high rate. We have used silica coated iron oxide magnetic particles as dopamine drug delivery agent. We have synthesized iron oxide (Fe3O4) magnetic nanoparticles (MNPs), and coated it with silicon dioxide (SiO2), then loaded it with dopamine (DA) which has been used here as anticancer drug. Here a significant improvement was found in case of drug release under acidic pH than normal blood pH. The MNPs are characterized using X‐ray diffraction (XRD), Energy Dispersive Analysis of X‐rays (EDAX), Fourier transform infrared (FTIR), Field Emission Scanning Electron Microscopy (FESEM), Transmission Electron Microscopy (TEM), High Resolution Transmission Electron Microscopy (HRTEM), Selected Area Electron Diffraction (SAED) and vibrating sample magnetometer (VSM) to confirm its structural, morphological and magnetic properties. Particles after characterization were involved in investigation of DA drug release by altering pH for better treatment of cancer. The results are very important and promising.

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Section: Resultssupporting

confidence: 55%

Dopamine Loaded SiO₂ Coated Fe₃O₄ Magnetic Nanoparticles: A New Anticancer Agent in pH‐Dependent Drug Delivery

2019

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“…Due to its magnetic properties, CoFe 2 O 4 nanoparticles may be employed in catalysts [1,2], cathode electrocatalyst of microbial fuel cells [3], or in various functional composite materials [4,5], including advanced adsorbents, for the removal of anionic pollutants from water [6]. Cobalt ferrite has been also considered as a good candidate for biomedical applications [7,8,9], especially for hyperthermia treatment, because of its high magneto-crystalline anisotropy [7].…”

Section: Introductionmentioning

confidence: 99%

“…A usual synthetic technique for preparation of magnetic CoFe 2 O 4 nanoparticles is the co-precipitation method [1,2,3,4,5,6,7,8,9,10,11,12,13], but also hydrothermal [14,15,16,17], sol-gel auto-combustion [18,19], and microwave assisted [20,21] methods can be applied.…”

Section: Introductionmentioning

confidence: 99%

Synthesis and Properties of Nanosized Stoichiometric Cobalt Ferrite Spinel

et al. 2018

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Nanoparticles with controllable sizes of ferrite spinel CoFe2O4 were formed by thermal treatment of cobalt-iron glycerolate. Thermal behavior during the heating was studied by differential thermal analysis combined with thermogravimetry. The precursor, as well as the prepared nanoparticles, were analyzed by a broad spectrum of analytic techniques (X-Ray photoelectron spectroscopy (XPS), X-Ray diffraction (XRD), Energy dispersive spectroscopy (EDS), Atomic absorption spectroscopy (AAS), Scanning electron microscopy (SEM), and Raman spectroscopy). The particle size of nanoparticles was obtained from Transmission electron microscopy and also calculated using Scherrer formula. A vibrating sample magnetometer (VSM) in a Physical Property Measurement System was used to analyze the magnetic properties of nanoparticles.

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“…The surface hydroxyl groups and magnetic cyclodextrin-chitosan present in the adsorbent are homogeneously distributed on the surface of graphene oxide and the adsorption process involves the following steps. (i) Negatively charged Cr (VI) species get attracted by protonated amine groups of the adsorbent in acidic medium due to electrostatic attraction [47]. (ii) In acidic medium, Cr (VI) is partial reduced to Cr (III) with the help of π -electrons present on the carbocyclic six membered ring of cyclodextrinchitosan modified graphene oxide.…”

Section: Adsorptive Removal Of Cr (Vi) Over Magnetite Nanoparticlesmentioning

confidence: 99%

A review on adsorptive remediation of Cr (VI) by magnetic iron oxides and their modified forms

2020

Biointerface Res Appl Chem

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Cr (VI) is highly toxic, carcinogenic and bio accumulative to living organisms. Its extensive industrial applications contaminate the natural aqueous ecosystems. Different techniques such as photocatalysis, adsorption, reverse osmosis, ion exchange, chemical precipitation, electrochemical reduction, solvent extraction etc. have been investigated to remove hexavalent chromium from contaminated water. Among these, adsorption is deliberated as the most effective and promising process because it is easy to design, simple to operate and suitable to avoid formation of secondary pollutants. Various adsorbents such as clay minerals, biosorbents, industrial wastes and magnetic nanomaterials have been used for the remediation of Cr (VI). The use of magnetic nanomaterials as adsorbents for removal of heavy metals has attracted much attention in recent years because of their large surface area and superparamagnetic characteristics. These materials not only exhibited high adsorption capacity but also could easily be recycled by applying an external magnetic field, making the separation process much easier. In this review, the adsorption behavior of different iron oxides such as maghemites, magnetites, ferrites and their modified forms towards the removal of Cr (VI) was discussed. The present review focuses on adsorption mechanism of Cr (VI) through the evaluation of adsorption capacities. Kinetics, thermodynamics and equilibrium studies for the adsorption process were depicted briefly. Optimum adsorption conditions (initial Cr (VI) concentration, pH, contact time, adsorbent dose and temperature), thermodynamic properties (ΔHo, ΔGo, ΔSo), kinetic model, fitted isotherm, adsorption mechanism and maximum adsorption capacities were listed in the table.

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Magnetic SiO 2 @CoFe 2 O 4 nanoparticles decorated on graphene oxide as efficient adsorbents for the removal of anionic pollutants from water

Cited by 104 publications

References 84 publications

Dopamine Loaded SiO₂ Coated Fe₃O₄ Magnetic Nanoparticles: A New Anticancer Agent in pH‐Dependent Drug Delivery

Dopamine Loaded SiO₂ Coated Fe₃O₄ Magnetic Nanoparticles: A New Anticancer Agent in pH‐Dependent Drug Delivery

Synthesis and Properties of Nanosized Stoichiometric Cobalt Ferrite Spinel

A review on adsorptive remediation of Cr (VI) by magnetic iron oxides and their modified forms

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Magnetic SiO 2 @CoFe 2 O 4 nanoparticles decorated on graphene oxide as efficient adsorbents for the removal of anionic pollutants from water

Cited by 104 publications

References 84 publications

Dopamine Loaded SiO2 Coated Fe3O4 Magnetic Nanoparticles: A New Anticancer Agent in pH‐Dependent Drug Delivery

Dopamine Loaded SiO2 Coated Fe3O4 Magnetic Nanoparticles: A New Anticancer Agent in pH‐Dependent Drug Delivery

Synthesis and Properties of Nanosized Stoichiometric Cobalt Ferrite Spinel

A review on adsorptive remediation of Cr (VI) by magnetic iron oxides and their modified forms

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Product

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Dopamine Loaded SiO₂ Coated Fe₃O₄ Magnetic Nanoparticles: A New Anticancer Agent in pH‐Dependent Drug Delivery

Dopamine Loaded SiO₂ Coated Fe₃O₄ Magnetic Nanoparticles: A New Anticancer Agent in pH‐Dependent Drug Delivery