Regioselective [3+2]‐Spiroannulation and [4+n]‐Annulation Approaches through Activation of C−H Bond Facilitated by Ru(II) as Catalyst: Role of Solvent Selectivity

Dev Mandal, Rahul; Sarkar, Anindita; Das, Dwaipayan; Das, Asish R.

doi:10.1002/adsc.202301277

Cited by 3 publications

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“…In the case of the deaminative coupling process, the quinazolimine 4a is converted to 4a′ (characterized by 1 H-NMR, ESI‡) in the presence of p -toluenesulfonic acid and t BuONO. 11 Then, the diazonium ion 4a′ interacts with the Pd( ii ) species through an oxidative addition pathway and generates the intermediate M . Then, the Pd centre interacts with the adjacent phenyl ring to generate the intermediate N .…”

Section: Resultsmentioning

confidence: 99%

Harnessing the benzyne insertion consequence to enable π-extended pyrido-acridine and quinazolino-phenanthridine

Ghosh,

Das,

Mandal

et al. 2024

Org. Biomol. Chem.

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Section: Resultsmentioning

confidence: 99%

Harnessing the benzyne insertion consequence to enable π-extended pyrido-acridine and quinazolino-phenanthridine

Ghosh,

Das,

Mandal

et al. 2024

Org. Biomol. Chem.

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Skeletal Reorganization Emanated via the Course of Heterocyclic N¹–N² Bond Cleavage: Electrosynthetic Approach

Islam,

Das,

Mandal

et al. 2024

J. Org. Chem.

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A unified method toward the synthesis of functionalized diazepines and quinazolines through reorganization of the molecular skeleton has been devised. The process is indulged by electrical energy via a domino N 1 −N 2 bond cleavage followed by concomitant ring closing, initiating from cinnolines and indazoles as designed precursors. Additionally, an intermolecular ring homologation has also been established to synthesize densely functionalized dihydroquinazolines from 2,3-diaryl-indazoles and acetonitrile involving the same electrochemical strategy.

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Photoinduced Regioselective Decarbonylative and Decarboxylative C–O Bond Functionalizations: Approach toward Chemoselective Scissions of Isatoic Anhydride and Unraveling the Enroutes through Control Experiments and DFT Studies

Mandal,

Das,

Sarkar

et al. 2024

J. Org. Chem.

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Distinctive, green, innovative, and well-organized photoinduced (metal-or photocatalyst-free) regioselective decarbonylative and decarboxylative C−O bond functionalization protocols to access aryl 2-aminobenzoates and 2-substituted benzoxazinone derivatives in excellent yields have been devised. These are achieved through the chemoselective scission of isatoic anhydride with ketones, diaryliodonium triflate, nitroalkene, phthalazinone, and phenol derivatives, which, in turn, served as the representative "electrophilic and nucleophilic" coupling partners. Control experiments and DFT calculations reveal that electrophilic radical-bearing coupling partners specifically follow the decarbonylation pathway, while nucleophilic radical-bearing conjugates facilitate the decarboxylation process. Thus, the devised methods represent the chemoselective fragmentation of isatoic anhydride, which occurs due to the electronic nature of the coupling partners. Again, the regioselective C−O/O−C bond formation is also a novel outcome of this methodology. We have also devised a green method for synthesizing 2-aminobenzoate-subtituted paracetamol through a decarboxylation route. A fluorescence quenching study indicates that phenyl 2-aminobenzoate specifically detects Fe(II) ions, exhibiting no reactivity toward various other metal ions. Additionally, transition-metal-catalyzed C−H bond functionalization of 2-substituted benzoxazinone with phenyl vinyl sulfone was performed at ease with significant yields, which appreciated the strategy developed by us.

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Regioselective [3+2]‐Spiroannulation and [4+n]‐Annulation Approaches through Activation of C−H Bond Facilitated by Ru(II) as Catalyst: Role of Solvent Selectivity

Cited by 3 publications

References 104 publications

Harnessing the benzyne insertion consequence to enable π-extended pyrido-acridine and quinazolino-phenanthridine

Harnessing the benzyne insertion consequence to enable π-extended pyrido-acridine and quinazolino-phenanthridine

Skeletal Reorganization Emanated via the Course of Heterocyclic N¹–N² Bond Cleavage: Electrosynthetic Approach

Photoinduced Regioselective Decarbonylative and Decarboxylative C–O Bond Functionalizations: Approach toward Chemoselective Scissions of Isatoic Anhydride and Unraveling the Enroutes through Control Experiments and DFT Studies

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Regioselective [3+2]‐Spiroannulation and [4+n]‐Annulation Approaches through Activation of C−H Bond Facilitated by Ru(II) as Catalyst: Role of Solvent Selectivity

Cited by 3 publications

References 104 publications

Harnessing the benzyne insertion consequence to enable π-extended pyrido-acridine and quinazolino-phenanthridine

Harnessing the benzyne insertion consequence to enable π-extended pyrido-acridine and quinazolino-phenanthridine

Skeletal Reorganization Emanated via the Course of Heterocyclic N1–N2 Bond Cleavage: Electrosynthetic Approach

Photoinduced Regioselective Decarbonylative and Decarboxylative C–O Bond Functionalizations: Approach toward Chemoselective Scissions of Isatoic Anhydride and Unraveling the Enroutes through Control Experiments and DFT Studies

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Skeletal Reorganization Emanated via the Course of Heterocyclic N¹–N² Bond Cleavage: Electrosynthetic Approach