Superparamagnetic nanoparticles as a recyclable catalyst: a new access to phenol esters <i>via</i> cross dehydrogenative coupling reactions

Nguyen, Chung Kim; Vu, Hoang H.; Dang, Ha V.; Nguyen, Ngon N.; Le, Nhan Thi Hong; Phan, Nam T. S.

doi:10.1039/c7ra11706j

Cited by 5 publications

(2 citation statements)

References 32 publications

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“…Furthermore, compared with iron oxides, spinel ferrites provide flexibility to control both crystal structures and magnetic properties by choosing different non-iron metals in spinel ferrite backbone and controlling their molar concentrations. Among various type of spinel ferrite magnetic nanoparticles (MNPs), CuFe 2 O 4 nanocomposite, in addition to numerous applications, has shown satisfactory performance as the recyclable catalyst in various organic transformations such as synthesis of heterocyclic compounds [46][47][48][49][50][51][52], Ullmann C-O coupling reaction [53], direct synthesis of chemical structures containing both phenol ester and benzothiazole moieties via dehydrogenative coupling reactions [54], reduction of p-nitrophenol [55], one-pot odorless carbon-sulfur bond formation reactions [56], directed phenol/formamide coupling [57], synthesis of diaryl/aryl alkyl sulfides via cross-coupling process [58], S-arylation of thioureas by aryl halides [59], one-pot four-component Dakin-West reaction (synthesis of β-acetamido ketones) [60], Friedel-Crafts acylation [61], N-arylation of heterocycles [62], direct C-H amination of benzothiazoles [63], oxidative hydroxylation of arylboronic acids [64], palm oil methanolysis [65], oxidation of benzyl alcohol [66], synthesis of unnatural arundines [67], N-arylation of indole and imidazole with aryl halide [68], and so on.…”

Section: Dementioning

confidence: 99%

Two different facile and efficient approaches for the synthesis of various N-arylacetamides via N-acetylation of arylamines and straightforward one-pot reductive acetylation of nitroarenes promoted by recyclable CuFe2O4 nanoparticles in water

Zeynizadeh

Aminzadeh

Mousavi

2019

Green Processing and Synthesis

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Two simple, efficient, and environmentally benign protocols for the synthesis of various N-arylacetamides via N-acetylation of arylamines and straightforward one-pot reductive acetylation of aromatic nitro compounds promoted by CuFe2O4 nanoparticles in water at reflux have been developed. The prepared CuFe2O4 MNPs are well known and fully characterized by various techniques. Furthermore, the CuFe2O4 NPs easily separated from the reaction environment using an external magnetic field and can be reused for several times without significant loss of its activity for both mentioned reactions.

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Section: Dementioning

confidence: 99%

Two different facile and efficient approaches for the synthesis of various N-arylacetamides via N-acetylation of arylamines and straightforward one-pot reductive acetylation of nitroarenes promoted by recyclable CuFe2O4 nanoparticles in water

Zeynizadeh

Aminzadeh

Mousavi

2019

Green Processing and Synthesis

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“…Surface functionalization of magnetic nanoparticles (MNPs) is a well‐designed way to bridge the gap between heterogeneous and homogeneous catalysis . Organocatalysts contain a homogeneous part whereby starting materials are easily converted to the desired products(s), and the heterogeneous part of these advanced catalysts can be separated easily using an external magnet . Thus, high conversions in reaction and easy work‐up procedures allow the preparation of desired compounds in high pure isolated yields …”

Section: Introductionmentioning

confidence: 99%

Fe₃O₄@vitamin B₁ as a sustainable superparamagnetic heterogeneous nanocatalyst promoting green synthesis of trisubstituted 1,3‐thiazole derivatives

Shaterian

Molaei

2019

Applied Organom Chemis

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Fe3O4@vitamin B1 was designed and prepared as an inexpensive and efficient heterogeneous nanocatalyst for the synthesis of new 1,3‐thiazol derivatives. The structure of the nanomagnetic catalyst was comprehensively characterized using Fourier transform infrared spectroscopy, scanning electron microscopy, transmission electron microscopy, energy‐dispersive X‐ray spectroscopy, vibrating sample magnetometry and thermogravimetric analysis. The three‐component, one‐pot condensation of arylglyoxal monohydrate, cyclic 1,3‐dicarbonyls and thioamides in water as a green solvent was applied for the preparation of 1,3‐thiazol derivatives. Simple preparation of the catalyst from commercially available materials, high catalytic activity, simple operation, short reaction times, high yields and use of green solvent are some advantages of this protocol. The superparamagnetic nanocatalyst is magnetically separable and retains its stability after recycling for at least five consecutive runs without detectable activity loss.

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Tunable Wettability with Stretchable Microstructured Surfaces

Vu,

Nguyen,

Nguyen

et al. 2023

Adv Eng Mater

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Analyzing the wettability of stretchable microstructured surfaces is crucial in applications like soft robotics, wearable biosensors, stretchable electronics, and electronic skin (e‐skin). However, it remains unclear how stretching affects the surface free energy (SFE) of these stretchable surfaces. In this article, stretchable microstructured surfaces are designed and fabricated, enabling liquid droplets to stay on top of the surface gaps. The corresponding SFE values are quantified as a function of both micropillar geometry and strain. It is observed that stretching could significantly affect their SFE and wettability. For instance, for the microstructured surface with pillar and gap dimensions of 10 μm, increasing the strain from 0% to 50% causes a sevenfold increase in the effective SFE. Interestingly, reversible decreasing of the strain decreases SFE to its original value, suggesting that the SFE remains unchanged after a complete stretching and releasing cycle. This trend agrees with the measurement of apparent contact angle (CA) as a function of strain. The results demonstrate stretching's capacity to significantly increase the wettability of microstructured surfaces, leading to a decrease in the CA and an increase in SFE. These findings further shed light on understanding the tunable wettability of microstructured surfaces under various deformation conditions.

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Superparamagnetic nanoparticles as a recyclable catalyst: a new access to phenol esters via cross dehydrogenative coupling reactions

Cited by 5 publications

References 32 publications

Two different facile and efficient approaches for the synthesis of various N-arylacetamides via N-acetylation of arylamines and straightforward one-pot reductive acetylation of nitroarenes promoted by recyclable CuFe2O4 nanoparticles in water

Two different facile and efficient approaches for the synthesis of various N-arylacetamides via N-acetylation of arylamines and straightforward one-pot reductive acetylation of nitroarenes promoted by recyclable CuFe2O4 nanoparticles in water

Fe₃O₄@vitamin B₁ as a sustainable superparamagnetic heterogeneous nanocatalyst promoting green synthesis of trisubstituted 1,3‐thiazole derivatives

Tunable Wettability with Stretchable Microstructured Surfaces

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Superparamagnetic nanoparticles as a recyclable catalyst: a new access to phenol esters via cross dehydrogenative coupling reactions

Cited by 5 publications

References 32 publications

Two different facile and efficient approaches for the synthesis of various N-arylacetamides via N-acetylation of arylamines and straightforward one-pot reductive acetylation of nitroarenes promoted by recyclable CuFe2O4 nanoparticles in water

Two different facile and efficient approaches for the synthesis of various N-arylacetamides via N-acetylation of arylamines and straightforward one-pot reductive acetylation of nitroarenes promoted by recyclable CuFe2O4 nanoparticles in water

Fe3O4@vitamin B1 as a sustainable superparamagnetic heterogeneous nanocatalyst promoting green synthesis of trisubstituted 1,3‐thiazole derivatives

Tunable Wettability with Stretchable Microstructured Surfaces

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Fe₃O₄@vitamin B₁ as a sustainable superparamagnetic heterogeneous nanocatalyst promoting green synthesis of trisubstituted 1,3‐thiazole derivatives