用于绿色合成4-吡喃并[2,3 -]吡唑的高效Ag/La-ZnO核壳催化剂。

Efficient Ag/La-ZnO core-shell catalyst for green synthesis of 4-pyrano[2,3-] pyrazoles.

作者信息

Labhade Hrishikesh, Gaikwad Sharad, Wable Jaidip, Kategaonkar Amol, Shaikh Samin

机构信息

Department of Chemistry, MVP's K. R. T. Arts, B. H. Commerce and A. M. Science (K. T. H. M.) College, Savitribai Phule Pune University Shivaji Nagar Nashik - 422 002 Maharashtra India

Department of Chemistry, VPM's B.N. Bandodkar College of Science (Autonomous), Jnanadweepa Chedani Bunder Road Thane (W) - 400 601 Maharashtra India.

出版信息

RSC Adv. 2025 Jul 22;15(32):26013-26026. doi: 10.1039/d5ra02788h. eCollection 2025 Jul 21.

DOI:10.1039/d5ra02788h

PMID:40697449

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12281110/

Abstract

The advancement of green and efficient synthetic strategies is essential for the pursuit of environmentally sustainable organic transformations. Pyrazole derivatives, recognized for their broad pharmacological and synthetic utility, are key structural motifs in various bioactive molecules. This study reports a one-pot, four-component (aryl aldehyde, malononitrile, ethyl acetoacetate, and hydrazine hydrate) synthesis of pyrazole derivatives catalyzed by lanthanum-doped and silver-coated ZnO (Ag/La-ZnO) core-shell nanoparticles under solvent-free grinding conditions at ambient room temperature. The catalyst was synthesized a chemical precipitation method and comprehensively characterized using XRD, FTIR, BET, EDAX, FESEM, HRTEM, SAED, and XPS techniques. The synthesized pyrazoles were characterized using FTIR, HNMR, CNMR, and MS. Compared to conventional protocols, this nanocatalyst offers advantages such as high catalytic efficiency, superior yields, short reaction duration, inexpensive nature, operational simplicity, reusability, and environmental benignity. The findings underscore the potential of nanostructured catalysts in advancing green synthetic strategies.

摘要

绿色高效合成策略的发展对于追求环境可持续的有机转化至关重要。吡唑衍生物因其广泛的药理和合成用途而闻名，是各种生物活性分子中的关键结构基序。本研究报道了在室温无溶剂研磨条件下，由镧掺杂和银包覆的ZnO（Ag/La-ZnO）核壳纳米颗粒催化的一锅四组分（芳基醛、丙二腈、乙酰乙酸乙酯和水合肼）合成吡唑衍生物的方法。该催化剂采用化学沉淀法合成，并使用XRD、FTIR、BET、EDAX、FESEM、HRTEM、SAED和XPS技术进行了全面表征。合成的吡唑通过FTIR、HNMR、CNMR和MS进行表征。与传统方法相比，这种纳米催化剂具有催化效率高、产率高、反应时间短、成本低、操作简单、可重复使用和环境友好等优点。这些发现强调了纳米结构催化剂在推进绿色合成策略方面的潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2e67/12281110/03ed0e3283cd/d5ra02788h-f1.jpg

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用于绿色合成4-吡喃并[2,3 -]吡唑的高效Ag/La-ZnO核壳催化剂。

Efficient Ag/La-ZnO core-shell catalyst for green synthesis of 4-pyrano[2,3-] pyrazoles.

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