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作者：Gnanamani L, Shareefa bee A, Madhu S, Venkatesan K, Annamalai P, Jianli W, Mohamad Ali
關(guān)鍵字：1,4-Dihydropyridine，Hantzsch synthesis ， Multicomponent reaction，Nanocatalysts，Sustainable chemistry
論文來源：期刊
具體來源：ChemistrySelect
發(fā)表時間：2024年

1,4-二氫吡啶（1,4-DHPs） 是一類結(jié)構(gòu)多樣的吡啶衍生有機化合物，因其廣泛的合成應用價值和顯著的藥物相關(guān)性而備受關(guān)注。經(jīng)典的 Hantzsch 二氫吡啶合成法仍是構(gòu)建此類雜環(huán)骨架的核心方法。近期創(chuàng)新技術(shù)徹底革新了 Hantzsch 二氫吡啶及其結(jié)構(gòu)類似物的合成方案。本綜述系統(tǒng)評述了 1,4-DHPs、1,8-二氧十氫吖啶（AD）和多氫喹啉（PHQ）合成領(lǐng)域的前沿進展，重點探討了以醛類、β-酮酯和銨鹽為前體的新興多組分反應（MCR）策略。

特別值得注意的是，本文著重介紹了基于先進納米催化體系的突破性進展，包括磁性納米雜化材料、納米結(jié)構(gòu)復合材料、過渡金屬氧化物、表面工程納米粒子及生態(tài)兼容型納米生物材料。納米催化劑的策略性應用展現(xiàn)出增強的結(jié)構(gòu)精確性與催化性能，標志著向可持續(xù)合成化學的范式轉(zhuǎn)變。通過對納米催化劑介導的合成路徑進行批判性分析，本研究闡明了其在優(yōu)化 1,4-DHPs 合成反應動力學、區(qū)域選擇性和整體工藝效率中的機制作用。文中提出的發(fā)現(xiàn)為采用定制納米催化劑的下一代 Hantzsch 反應工程奠定了基礎，有望為 1,4-DHP 衍生藥效團的綠色合成開辟新途徑。

1,4-Dihydropyridines (1,4-DHPs) represent a versatile class oforganic compounds derived from pyridines, recognized fortheir extensive synthetic applications and significant medi-cal significances. Among the various synthetic methodologiesavailable, the Hantzsch dihydropyridine synthesis is particularlynotable as it provides a reliable approach to the produc-tion of these compounds. Recent advancements have markedlyimproved the synthetic pathways leading to Hantzsch dihy-dropyridines and their derivatives. This review aims to thor-oughly examine the recent progress in the synthesis of 1,4-DHPs, 1,8-dioxodecahydroacridines (AD), and polyhydroquino-lines (PHQ). Emphasis is placed on novel synthetic strategiesreported in recent years, specifically those that employ mul-ticomponent reactions involving aldehydes, β-ketoesters, andammonium salts. Furthermore, these reactions are catalyzedby various nanocatalysts, including magnetic nanoparticles,nanocomposites, metal oxides, functionalized nanoparticles, andother environmentally friendly nanobiomaterials. The applica-tion of nanocatalysts in these processes is underscored by theircontributions to structural integrity and activity enhancement,indicative of a paradigm shifts towards more sustainable andefficient synthetic methodologies. This review consolidates andassesses various synthetic routes facilitated by nanocatalystswhile elucidating their distinct roles in improving the efficiencyand selectivity of 1,4-DHP synthesis. Hence, this review may pavethe way for advancements in Hantzsch reactions by employingnanomaterial catalysts for the sustainable production of 1,4-DHP derivatives.