The First Recyclable, Nanocrystalline CdS Thin Film Mediated Eco‐benign Synthesis Of Hantzsch 1, 4 Dihyropyridines, 1, 8‐Dioxodecahydroacridine and Polyhydroquinolines derivatives

Lavanya, G.; Venkatapathy, K.; Magesh, C.J.; Perumal, Paramasivan T.; Ramalingam, Sathishkumar; Amudha, P

doi:10.1002/aoc.5026

Cited by 12 publications

(4 citation statements)

References 43 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Dehbalaei and coauthors [113] synthesized a new heterogeneous catalyst from the fabrication of N‐propyl benzoguanamine sulfonic acid on Fe 3 O 4 nanoparticles and employed them for ingenious and efficient synthesis of diverse acridinedione derivatives and found excellent yields within short reaction time [Scheme 15, Method 2]. Lavanya et al [114] . exploited a novel nano crystalline CdS thin film for the effective and green synthesis of 1, 8‐ dioxodecahydroacridine in EtOH to obtain good yields.…”

Section: Synthesis Of Acridine‐18‐dione Derivativesmentioning

confidence: 99%

“…Mohammadi and companions [112] devised synthesis of acridinediones using nano- [113] synthesized a new heterogeneous catalyst from the fabrication of N-propyl benzoguanamine sulfonic acid on Fe 3 O 4 nanoparticles and employed them for ingenious and efficient synthesis of diverse acridinedione derivatives and found excellent yields within short reaction time [Scheme 15, Method 2]. Lavanya et al [114] exploited a novel nano crystalline CdS thin film for the effective and green synthesis of 1, 8-dioxodecahydroacridine in EtOH to obtain good yields. This process avoids the use of any reagents and inert atmosphere, no side product and also showed easy recovery and reusability of catalyst [Scheme 15, Method 3].…”

Section: Nano-catalyzed Synthesismentioning

confidence: 99%

See 1 more Smart Citation

Acridine‐1,8‐diones: Synthesis and Biological Applications

Sahiba¹,

Sethiya²,

Soni³

et al. 2021

ChemistrySelect

View full text Add to dashboard Cite

The unpretentious features of acridine‐1,8‐diones viz. presence of N‐heteroatom, electronic behavior, acridine ring skeleton and wide possibilities of diversified substitution, bichromophoric structure and interaction ability with various proteins, make them an interesting scaffold of heterocyclic, medicinal and industrial chemistry. A tremendous development in the field of acridinediones in terms of synthetic strategies, bioactivity, industrial and other applicability has been explored in past four decades. In this perspective, an overview has been given on the state‐of‐art discoveries for the synthesis and biological applications of acridine‐1,8‐diones from 1980 to 2020. The study highlighted the history, chemistry and properties of these derivatives and provided deep insights into the synthetic protocols using various catalysts and techniques like nano‐catalyst, ionic‐liquids, microwave, ultrasound etc. under varied conditions along with biological activity against many lethal diseases. Finally, the respective prospects and limitations to these systems have been addressed. Furthermore, attempts have been done to bring many outstanding researches together and express the significance of acridine‐1,8‐diones through several aspects. We hope that the article shall deliver an impetus to explore further the synthetic values and mechanistic puzzles of acridinedione moiety and to design more promising hybrid multi‐targeted drugs and other industrial composites for the goodness of humanity

show abstract

Section: Synthesis Of Acridine‐18‐dione Derivativesmentioning

confidence: 99%

Section: Nano-catalyzed Synthesismentioning

confidence: 99%

Acridine‐1,8‐diones: Synthesis and Biological Applications

Sahiba¹,

Sethiya²,

Soni³

et al. 2021

ChemistrySelect

View full text Add to dashboard Cite

show abstract

“…7 The aluminized polyborate catalyst was used in our previous work for the solvent-free green synthesis of various heterocyclic molecules. [8][9][10] In literature several methodologies are been reported for the synthesis of acridinediones among them some are β-CD-mono-SO3H, 11 CdS thin film, 12 MNPs-N-propyl-benzoguanamine-SO3H, 13 AFGONs, 14 GO/CR-Fe3O4, 15 Iron-4 A molecular sieves, 16 MCM-41-Pr-THEIC, 17 Pd/AlO(OH), 18 urease, 19 Fe3O4@SiO2@Ni-Zn-Fe LDH, 20 nano-Fe3O4@SiO2-HBP-FeCl3, 21 citric acid, 22 TEMPO/CuCl2, 23 N-butyl pyridinium heptachlorodialuminate, 24 L-proline, 25 microwave irradiation, 26 Na + -MMT-[bip]-NH2 + HSO4 -, 27 MSrGONCs, 28 phosphate fertilizers, 29 ChCl:urea deep eutectic solvent, 30 Fe3O4@SiO2-Pr-Sulfurol-SO3H MNPs 31 and ultrasound-assisted 32 reaction.…”

Section: Introductionmentioning

confidence: 99%

Aluminized polyborate catalyzed efficient solvent-free synthesis of 1,8-dioxo-decahydroacridines via hantzsch condensation

Aute,

Parhad,

Vikhe

et al. 2024

10.5267/j.ccl

View full text Add to dashboard Cite

In this work we report, aluminized polyborate catalyzed facile and efficient one-pot four component Hantzsch synthesis of 1,8-dioxo-decahydroacridines using substituted aromatic aldehydes (1 mmol), dimedone (2 mmol) and ammonium acetate (1.5 mmol) at 95-100oC under solvent-free condition. The prominent advantages of this methodology are good product yields (85-95%), eco-friendliness, mild reaction conditions and use of inexpensive catalyst. The structures of the targeted molecules were examined by FT-IR, 1H-NMR and mass spectral techniques.

show abstract

“…[33] Generally, 1,4-dihydropyridine derivatives are synthesized commonly via Hantzsch reaction using cyclohexane-1,3-dione, aldehydes, β-ketoesters and different amines. [34][35][36][37] These Nheterocycles are prepared in the presence of various recyclable catalysts such as NiO/ZrO 2 , [38] nanocrystalline CdS thin film, [39] cellulose template embedded Cu bionanocomposite, [40] γcyclodextrin, [41] nicotinic acid, [42] amine-functionalized graphene oxide nanosheets, [43] [PVP-SO 3 H] HSO 4 , [44] NiFeTi calcined layered double hydroxides, [45] periodic mesoporous organosilica supported manganese, [46] highly monodisperse PdRuNi nanoparticles on graphene oxide, [47] and Fe 3 O 4 @SiO 2 nanoparticles. [48] These methods offer several advantages such as short reaction times, good yields, excluding toxic solvents, easy recovery and recyclability of the catalyst, without the significant loss of yield after many runs.…”

Section: Introductionmentioning

confidence: 99%

Application of Cyclohexane‐1,3‐diones in the Synthesis of Six‐Membered Nitrogen‐Containing Heterocycles

Sharma¹,

Kumar

et al. 2022

ChemistrySelect

View full text Add to dashboard Cite

Cyclohexane‐1,3‐dione and its derivatives are imperative precursors in synthetic organic chemistry as they are useful intermediates for the synthesis of a wide range of biologically active natural products, heterocycles and pharmaceuticals. Recently, cyclohexane‐1,3‐diones have been used for the synthesis of varied array of six‐membered nitrogen‐containing heterocycles in the presence of aldehydes, acetoacetic esters, malononitrile, chalcones, coumarins, acetophenones, amino acids, amines, etc. under catalytic and non‐catalytic conditions. Newest studies on the importance of these heterocycles motivated us to compile all the recently developed processes which include the fabrication of six‐membered nitrogen heterocycles. This article is mainly focused on the efficient synthesis of six‐membered N‐heterocycles i. e. 1,4‐dihydropyridine, acridine‐1,8‐diones, benzoacridinones, quinolones and pyridine derivatives from cyclohexane‐1,3‐diones as one of the substrates, published for the last ten years.

show abstract

The First Recyclable, Nanocrystalline CdS Thin Film Mediated Eco‐benign Synthesis Of Hantzsch 1, 4 Dihyropyridines, 1, 8‐Dioxodecahydroacridine and Polyhydroquinolines derivatives

Cited by 12 publications

References 43 publications

Acridine‐1,8‐diones: Synthesis and Biological Applications

Acridine‐1,8‐diones: Synthesis and Biological Applications

Aluminized polyborate catalyzed efficient solvent-free synthesis of 1,8-dioxo-decahydroacridines via hantzsch condensation

Application of Cyclohexane‐1,3‐diones in the Synthesis of Six‐Membered Nitrogen‐Containing Heterocycles

Contact Info

Product

Resources

About