Natural Acidic Ionic Liquid Immobilized on Magnetic Silica: Preparation and Catalytic Performance in Chemoselective Synthesis of Dicoumarols and Substituted Xanthene Derivatives

Azizi, Najmedin; Abbasi, Faezeh; Abdoli‐Senejani, Masumeh

doi:10.1002/slct.201800138

Cited by 29 publications

(14 citation statements)

References 53 publications

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“…As a part of ongoing research into the efficient synthesis of heterocyclic compounds [32][33][34][35][36], in the present study, we describe a green and effective procedure for the Nalkylation of aromatic amines with alcohols using H At first, the reaction of aniline (1 mmol) and benzhydrol (1 mmol) in the presence of 0.05 g of the catalyst in various solvents at 60 o C was selected as a model reaction ( Table 1). The results indicated that, among all, C 2 H 5 OH/H 2 O (1:1) is the most effective solvent.…”

Section: Resultsmentioning

confidence: 99%

Phosphomolybdic acid immobilized chitosan/Fe3O4: an efficient catalyst for the N-alkylation of anilines

Ghanimati¹,

Abdoli‐Senejani²,

Bodaghifard³

et al. 2020

Eurasian Chem. Commun.

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In this work, phosphomolybdic acid immobilized on chitosan/Fe3O4 as a green catalyst was used for the Hofmann Nalkylation of aniline derivatives with alcohols. H3PMo12O40/chitosan/Fe3O4 (PMo/Chit/Fe3O4) was prepared from the phosphomolybdic acid, chitosan, and Fe3O4 MNPs. Several secondary amines were synthesized from primary arylamines with electron-donating, electron-withdrawing groups, and alcohols in good to excellent yields. The catalyst could be separated using an external magnet and recovered without reducing its catalytic activity. The optimization of the reaction conditions was evaluated using the response surface method (RSM), involving the Box-Behnken design matrix. The simple procedure, only one byproduct (i.e., water), good to excellent yields, easy separation of the catalyst, short reaction times, and environmentally benign conditions were some advantages of this method.

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Section: Resultsmentioning

confidence: 99%

Phosphomolybdic acid immobilized chitosan/Fe3O4: an efficient catalyst for the N-alkylation of anilines

Ghanimati¹,

Abdoli‐Senejani²,

Bodaghifard³

et al. 2020

Eurasian Chem. Commun.

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“…A novel, one‐pot and potent pathway to synthesize biscoumarins from aldehydes and 4HC via domino Knoevenagel–Michael reaction using tetramethylguanidium‐acetate [TMG][Ac] as an ionic liquid catalyst at room temperature has been presented by Zhu and colleagues ( Scheme : Method 6) . Azizi and co‐authors prepared a catalyst by natural acidic IL immobilized on magnetic silica (Fe 3 O 4 @SiO 2 @VB1‐Ni II ) and used this catalyst in protocol to form biscoumarin from 4HC and aldehyde in solvent free condition at 110 °C ( Scheme : Method 7) .…”

Section: General Synthesis Of Biscoumarinmentioning

confidence: 99%

An Insight View on Synthetic Protocol, Mechanistic and Biological Aspects of Biscoumarin Derivatives

2019

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Biscoumarin has emerged as one of the most unique and valuable moiety in the field of synthetic as well as in medicinal chemistry. This moiety has been examined for the designing of potent derivatives and hybrids with other moieties and substituents exhibiting a myriad of medicinal properties. These far‐flung characteristics enthralled the researchers to discover various methods for the synthesis of biscoumarin nucleus and its derivatives from 4‐hydroxycoumarin and varieties of aldehydes using different types of catalysts to improve the selectivity, purity and yield of the products. Moreover, liberal scope is available for this structural unit which needs to be explored by chemists for the advancement of new potential drug candidates. This article summarizes the current eco‐benign pathways for the synthetic strategies of biscoumarins under various reaction conditions viz. solid supported catalyst, ionic liquid, nanoparticles, Lewis acid, heteropolyacids, nanocomposites etc.

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“…Xanthene and its derivatives are the most promising biologically active compounds with great pharmaceutical applicability [2][3][4][5][6]. Furthermore, these compounds have been utilized in local dyes [7], laser technologies [8,9], and photodynamic therapy [10]. Structures of some bioactive xanthenes (rhodamine, amsacrine, and RO67-4853) [11] are depicted in Figure 1.…”

Section: Introductionmentioning

confidence: 99%

A rapid and quantitative synthesis of xanthene derivatives using sulfonated graphitic carbon nitride under ball‐milling

Qareaghaj

Ghaffarzadeh

Azizi

2021

Journal of Heterocyclic Chem

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A truly green, solventless, and fast protocol for the quantitative preparation of biologically active xanthene derivatives with 10 mol% sulfonated graphitic carbon nitride (Sg─CN) as a heterogeneous acidic catalyst was developed. Excellent yields, low cost, solvent-free conditions, high catalytic activity, reusability of the catalyst, simple workup, and heterogeneous carbon-based catalyst make the present method particularly attractive from a green chemistry perspective.

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Natural Acidic Ionic Liquid Immobilized on Magnetic Silica: Preparation and Catalytic Performance in Chemoselective Synthesis of Dicoumarols and Substituted Xanthene Derivatives

Cited by 29 publications

References 53 publications

Phosphomolybdic acid immobilized chitosan/Fe3O4: an efficient catalyst for the N-alkylation of anilines

Phosphomolybdic acid immobilized chitosan/Fe3O4: an efficient catalyst for the N-alkylation of anilines

An Insight View on Synthetic Protocol, Mechanistic and Biological Aspects of Biscoumarin Derivatives

A rapid and quantitative synthesis of xanthene derivatives using sulfonated graphitic carbon nitride under ball‐milling

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