Characterization of bis‐Schiff bases synthesized using ZnFe2O4 nanoparticles as catalyst, and examination of their antibacterial and in vitro cytotoxic properties

Maaref, Hamed; Sheikhhosseini, Enayatollah; Foroughi, Mohammad Mehdi; Akhgar, Mohammad Reza; Jahani, Shohreh

doi:10.1002/aoc.5557

Cited by 7 publications

(3 citation statements)

References 34 publications

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“…Furthermore, these derivatives represent an important class of organic compounds, especially in the medicinal and pharmaceutical fields (Murtaza et al, 2014). It is well known from the literature that Schiff bases display excellent biological properties, such as antioxidant and analgesic (Karrouchi et al, 2016), antibacterial and cytotoxic (Maaref et al, 2020), antidiabetic (Karrouchi et al, 2022) and anti-inflammatory activities (Rana et al, 2012). These derivatives are also used as corrosion inhibitors, which relies on their ability to spontaneously form a monolayer on the surface being protected (El Arrouji et al, 2020).…”

Section: Chemical Contextmentioning

confidence: 99%

Crystal structure and molecular docking study of diethyl 2,2′-({[(1E,1′E)-(hydrazine-1,2-diylidene)bis(methanylylidene)]bis(4,1-phenylene)}bis(oxy))diacetate

Daoui

Kansız

Aktas

et al. 2022

Acta Crystallogr E Cryst Commun

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The title Schiff base, C22H24N2O6, adopts an E configuration. The molecule is planar, the mean planes of the phenyl ring system (r.m.s deviation = 0.0059 Å) forms a dihedral angle of 0.96 (4)° with the mean plane of the phenyl ring moiety (r.m.s deviation = 0.0076 Å). In the crystal, molecules are linked by weak intermolecular C—H...O and C—H...N hydrogen bonds into chains extending along the c-axis and b-axis directions, respectively. A molecular docking study between the title molecule and 5-HT2C, which is a G protein receptor and ligand-gated ion channels found in nervous systems (PDB ID: 6BQH) was executed. The experiment shows that it is a good potential agent because of its affinity and ability to stick to the active sites of the receptor.

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Section: Chemical Contextmentioning

confidence: 99%

Crystal structure and molecular docking study of diethyl 2,2′-({[(1E,1′E)-(hydrazine-1,2-diylidene)bis(methanylylidene)]bis(4,1-phenylene)}bis(oxy))diacetate

Daoui

Kansız

Aktas

et al. 2022

Acta Crystallogr E Cryst Commun

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“…Condensation reaction is among those chemical activities for which devising a new environmentally friendly catalyst could potentially provide an approach for dealing with the aforementioned challenges. Upon our previous study on synthesis of organic compounds by nanoparticles [26][27][28][29], the scope of the present work was to achieve the multi-component pyrano [2, 3-d] pyrimidines by using NiO nano powders as a green, environmentally friendly catalyst (Scheme 1).…”

Section: Introductionmentioning

confidence: 99%

NiO Nanoparticles: A Highly Efficient Catalyst For One-Pot Three-Component Synthesis of Pyrano[2, 3-d]Pyrimidine Derivatives in Green Media

Sabbaghnasab

Sheikhhosseini

2021

Preprint

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In this paper NiO nanoparticles are utilized for effective strengthening of annulated pyrano [2, 3- d] pyrimidine synthesis through primary Knoevenagel, the following Micheal and ultimate heterocyclization reactions of aldehyde, malononitrile and barbituric acid. The NiO nanoparticles characteristics are identified through using advanced techniques like IR, UV, EDX, XRD, SEM and TEM. The nano-NiO particles are mostly of below < 100 nm sizes with uniform sphere shapes. The adopted approach is advantages due to its simple processing, relatively short reaction time, often good to high average yields, convenient workability, and environmental friendliness.

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“…Electrochemical methods have some attractive advantages such as simple and fast response, low maintenance cost, excellent selectivity and high sensitivity. However, a serious obstacle is that the oxidation peak potentials of the isomers are too close at a bare electrode which causes overlapping of voltammetric responses, making their discrimination very difficult [13][14][15][16][17]. A chemically modified electrode is a superior approach to solve the peak separation problem by applying a modifier [18][19][20][21][22][23][24].…”

Section: Introductionmentioning

confidence: 99%

Synthesis and characterization of LaMnO3 nanocrystals and graphene oxide: fabrication of graphene oxide–LaMnO3 sensor for simultaneous electrochemical determination of hydroquinone and catechol

Akbari

Foroughi

Nadiki

et al. 2019

J. Electrochem. Sci. Eng.

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For the first time, a new method for preparation of graphene oxide-LaMnO3 (GO-LaMnO3) nanocompositeas a material of electrochemical sensor for simultaneous determination of catechol (CT) and hydroquinone (HQ) is developed. LaMnO3 nanoparticles have been characterized by Fourier-transform infrared spectroscopy (FT-IR), scanning electron microscopy (SEM), X-ray diffraction (XRD), transmission electron microscopy (TEM) and energy dispersive X-ray analysis (EDX) technique. Due to the excellent catalytic activity, enhanced electrical conductivity and high surface area, the simultaneous determination of HQ and CT with two well-defined peaks has been achieved at the GO-LaMnO3 modified electrode. Comparing with unmodified electrodes, the oxidation currents of HQ and CT increased remarkably. Also, the result exhibited a great decrease in anodic overpotentialresulting in about 150 mV negative shift of potential. The catalytic peak current values are found linearly dependent on the HQ and CT concentrations in the range of 0.5–433.3 and 0.5–460.0 μM with sensitivity of 0.0719 and 0.0712 μA μM-1, respectively. The detection limits for HQ and CT are determined as 0.06 and 0.05 μM, respectively.

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Characterization of bis‐Schiff bases synthesized using ZnFe₂O₄ nanoparticles as catalyst, and examination of their antibacterial and in vitro cytotoxic properties

Cited by 7 publications

References 34 publications

Crystal structure and molecular docking study of diethyl 2,2′-({[(1E,1′E)-(hydrazine-1,2-diylidene)bis(methanylylidene)]bis(4,1-phenylene)}bis(oxy))diacetate

Crystal structure and molecular docking study of diethyl 2,2′-({[(1E,1′E)-(hydrazine-1,2-diylidene)bis(methanylylidene)]bis(4,1-phenylene)}bis(oxy))diacetate

NiO Nanoparticles: A Highly Efficient Catalyst For One-Pot Three-Component Synthesis of Pyrano[2, 3-d]Pyrimidine Derivatives in Green Media

Synthesis and characterization of LaMnO3 nanocrystals and graphene oxide: fabrication of graphene oxide–LaMnO3 sensor for simultaneous electrochemical determination of hydroquinone and catechol

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