绿色化学
化学
催化作用
原子经济
离子液体
有机合成
生化工程
环境友好型
膨胀的
商品化学品
生物催化
有机化学
纳米技术
组合化学
材料科学
生态学
复合材料
工程类
生物
抗压强度
作者
Sayani Banerjee,S. Periyasamy,Kathiravan Muthukumaradoss,D. Priya,Venkatesan Saravanan
标识
DOI:10.3389/fchem.2025.1656935
摘要
The growing emphasis on sustainable development has propelled green chemistry into a vital framework for designing environmentally benign chemical processes. This review highlights recent advancements in green methodologies for organic synthesis, emphasizing strategies that reduce the use of hazardous reagents and solvents while enhancing efficiency and atom economy. Key approaches include solvent-free reactions; the use of water and ionic liquids as green solvents; biocatalysis employing plant extracts and natural acids; and microwave-assisted synthesis. Notable progress in metal-free oxidative coupling—particularly for synthesizing 2-aminobenzoxazoles, imidazoles, pyrazoles, and Schiff bases—demonstrates the shift away from traditional transition-metal catalysis toward safer alternatives. In addition, innovative transformations using natural catalysts such as pineapple juice and onion peel, microbial biotransformations, and bio-based solvents like eucalyptol and ethyl lactate illustrate the expansive potential of green chemistry. Techniques such as photocatalysis and phase-transfer catalysis further exemplify energy-efficient and selective processes. Collectively, these methods offer high yields, shorter reaction times, and significant environmental benefits. This review underscores the practicality and promise of green chemistry in advancing sustainable organic synthesis, particularly within the pharmaceutical and fine chemical industries.
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