乙酰丙酸
化学
反应性(心理学)
有机化学
胺化
催化作用
还原胺化
键裂
有机合成
组合化学
选择性
化学选择性
反应条件
功能群
有机分子
酸催化
有机催化
作者
Geun Ho Kim,Sung Woo Lee,Taeyang Do,Jung Woon Yang
出处
期刊:Synthesis
[Thieme Medical Publishers (Germany)]
日期:2026-02-25
卷期号:58 (11): 1238-1250
摘要
Abstract Levulinic acid (LA) is a key biomass-derived platform molecule that provides access to a wide range of value-added chemicals through selective functional-group manipulation. Although transition-metal catalysis has traditionally dominated LA upgrading, recent years have witnessed rapid progress in transition-metal-free synthetic strategies based on main-group reagents, Brønsted (or Lewis) acids and bases, and organocatalytic activation modes. This Short Review summarizes recent advances in the metal-free synthesis and transformation of LA, with a particular focus on reaction design and mechanistic features relevant to organic synthesis. Key topics include chemoselective reduction to γ-valerolactone and related oxygenates, pH-controlled oxidative C–C bond cleavage to functional organic acids, acid-mediated condensation reactions toward polymer-relevant monomers, and metal-free amination and cyclization pathways affording nitrogen-containing heterocycles. By organizing these transformations according to reaction class and selectivity control, this review highlights how foundational organic reactivity can be leveraged to achieve efficient and sustainable valorization of LA without reliance on transition metals.
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