An Efficient Synthesis of Quinoline Derivatives using Polymer-Supported Sulphonic Acid via Friendlier Pathway: A Green Protocol DOI Open Access

Navin Sakhare,

S. J. Takate, Jeevanand Deshmukh

и другие.

Asian Journal of Chemistry, Год журнала: 2025, Номер 37(4), С. 789 - 794

Опубликована: Март 29, 2025

An efficient method for synthesizing quinoline derivatives (3a-l) was reported using polyethylene glycol-based sulphonic acid (PEG-SA) and polystyrene-supported (PS-PEG-SA) as recyclable catalysts via a friendlier reaction pathway. This strategy is more environmentally sustainable than traditional methods derivatives, yielding favorable yields facilitating ease of operation under mild conditions. In presence PEG-SA/PS-PEG-SA catalyst, carbonyl compounds with an active α-methylene group were added to 2-aminophenyl ketones/aldehydes produce substituted compounds. Adhering green chemistry principles, this provides productive way synthesize functionally useful raising the hope breakthrough in pharmaceutical material sciences.

Язык: Английский

An Efficient Synthesis of Quinoline Derivatives using Polymer-Supported Sulphonic Acid via Friendlier Pathway: A Green Protocol DOI Open Access

Navin Sakhare,

S. J. Takate, Jeevanand Deshmukh

и другие.

Asian Journal of Chemistry, Год журнала: 2025, Номер 37(4), С. 789 - 794

Опубликована: Март 29, 2025

An efficient method for synthesizing quinoline derivatives (3a-l) was reported using polyethylene glycol-based sulphonic acid (PEG-SA) and polystyrene-supported (PS-PEG-SA) as recyclable catalysts via a friendlier reaction pathway. This strategy is more environmentally sustainable than traditional methods derivatives, yielding favorable yields facilitating ease of operation under mild conditions. In presence PEG-SA/PS-PEG-SA catalyst, carbonyl compounds with an active α-methylene group were added to 2-aminophenyl ketones/aldehydes produce substituted compounds. Adhering green chemistry principles, this provides productive way synthesize functionally useful raising the hope breakthrough in pharmaceutical material sciences.

Язык: Английский

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