Microwave-assisted Synthesis of 3-amino-2-phenylquinazolin-4(3H)-one (QH) and 4-oxo-2-phenylquinazoline-3(4H)-carbothioamide (QTh)

IF 0.9 Q4 CHEMISTRY, MULTIDISCIPLINARY Current Microwave Chemistry Pub Date : 2023-05-16 DOI:10.2174/2213335610666230516165046
D. Sengupta, Ranjan Kumar Das, Debdulal Sharma, S. Paul
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Abstract

Microwave synthesis has developed as a powerful tool for the cost-effective and greener synthesis of organic molecules, including quinazolines. Irradiation with microwave leads to the excitation of molecules and equitable distribution of thermal energy in a much shorter time than conventional synthesis. This results in shorter reaction time and, more often than not, higher efficiency. The primary objective of the work presented in this article was to prepare hydrazine hydrate or thiourea derivative of quinazolines through microwave synthesis as small-molecule scaffolds for further need-based functionalisation, isolation, and characterisation. We, herein, report the synthesis of two quinazolinone derivatives of thiourea and hydrazine, 3-amino-2-phenylquinazolin-4(3H)-one (QH) and 4-oxo-2-phenylquinazoline-3(4H)-carbothioamide (QTh), respectively. A multi-step synthetic strategy starting from anthranilic acid was employed to synthesise the small molecule quinazolinones 3-amino-2-phenylquinazolin-4(3H)-one (QH) and 4-oxo-2-phenylquinazoline-3(4H)-carbothioamide (QTh). The compounds were synthesised by reacting hydrazine and thiourea with 2-benzamidobenzoyl chloride in DMF under microwave irradiation (800 W at 135 °C for 4 min) in the presence of potassium carbonate. The acid chloride was prepared by chlorination of 2-benzamidobenzoic acid, which in turn was synthesised from anthranilic acid by benzoylation. This method is an efficient alternative approach to synthesising quinazolinones from benzoxazin-4-ones. We have successfully synthesised, isolated, and characterised the quinazolinone derivative QH (yield: 81%) and QTh (yield: 85%). The structures of the compounds were established through spectroscopic techniques. Theoretical optimisation of the structures was also achieved using DFT. The HOMO-LUMO difference for QH and QTh was calculated to be 4.60 and 4.47 eV, respectively. The reported protocol is advantageous over conventional methods of quinazoline synthesis from benzoxazin-4-ones. The time required for the reaction is much less (4 min) as compared to the usual requirements of reflux (> 4 h); the higher energy gap of QTh indicates greater stability than that of QH. Keywords: 3-amino-2-phenylquinazolin-4(3H)-one (QH), 4-oxo-2-phenylquinazoline-3(4H)-carbothioamide (QTh), HOMO-LUMO, DMF, microwave irradiation.
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微波辅助合成3-氨基-2-苯基喹唑啉-4(3H)-酮(QH)和4-氧代-2-苯基喹噻唑啉-3(4H)-硫代甲酰胺(QTh)
微波合成已发展成为一种强大的工具,用于成本效益高、更环保的有机分子合成,包括喹唑啉。与传统合成相比,用微波辐射可以在更短的时间内激发分子并公平分配热能。这导致更短的反应时间,并且通常更高的效率。本文工作的主要目的是通过微波合成喹唑啉的水合肼或硫脲衍生物,作为小分子支架,用于进一步基于需求的功能化、分离和表征。本文报道了硫脲和肼的两种喹唑啉酮衍生物,3-氨基-2-苯基喹唑啉-4(3H)-酮(QH)和4-氧代-2-苯基喹噻唑啉-3(4H)-硫代甲酰胺(QTh)的合成。以邻氨基苯甲酸为原料,采用多步合成策略合成了小分子喹唑啉酮3-氨基-2-苯基喹唑啉-4(3H)-酮(QH)和4-氧代-2-苯基喹噻唑啉-3(4H)-硫代甲酰胺(QTh)。这些化合物是通过在微波辐射(135°C下800W,4分钟)下,在碳酸钾存在下,肼和硫脲与2-苄脒基苯甲酰氯在DMF中反应合成的。酰氯是由2-苄脒基苯甲酸氯化制备的,而2-苄脒基苯甲酸又是由邻氨基苯甲酸通过苯甲酰化合成的。该方法是由苯并恶嗪-4-酮合成喹唑啉酮的有效替代方法。我们成功地合成、分离和表征了喹唑啉酮类衍生物QH(产率:81%)和QTh(产率:85%)。通过光谱技术确定了化合物的结构。还使用DFT实现了结构的理论优化。计算出QH和QTh的HOMO-LUMO差分别为4.60和4.47eV。所报道的方案优于由苯并恶嗪-4-酮合成喹唑啉的常规方法。与通常的回流要求(>4小时)相比,反应所需的时间要短得多(4分钟);能隙越大,QTh的稳定性越强。关键词:3-氨基-2-苯基喹唑啉-4(3H)-酮(QH),4-氧代-2-苯基喹噻唑啉-3(4H)-硫代甲酰胺(QTh),HOMO-LUMO,DMF,微波辐射。
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Current Microwave Chemistry
Current Microwave Chemistry CHEMISTRY, MULTIDISCIPLINARY-
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