Catalytic frontiers in biodiesel: Comparing bimetallic nano-catalysts and MOF-based catalysts for green energy – A review

IF 2.1 3区化学 Q3 CHEMISTRY, INORGANIC & NUCLEAR

Journal of Organometallic Chemistry Pub Date : 2025-09-08 DOI:10.1016/j.jorganchem.2025.123854

M. Karthikeyan, Lakshmi Natarajan, Kathi Dhanyaka

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Abstract

Fossil fuels have detrimental environmental effects, such as global warming and climate change, prompting the search for alternatives. Biofuels, especially biodiesel, are good options. Biodiesel is usually made by the transesterification or esterification of plant-based resources (waste cooking oil, non-edible oil, edible oil, algae), with different catalysts. Many traditional homogeneous and heterogeneous catalysts exist, but soap formation, corrosion, low reusability, and mass transfer limitations hinder industrial application. Therefore, many recent research efforts are being made towards advanced catalytic systems that can avoid these issues. In this review, we present the use of bimetallic nano-catalysts (Ni–Co, Pd–Ag, Pt–Au) and metal–organic framework (MOF) catalysts (ZIF-8, UiO-66) in order to improve reaction selectivity and transform triglycerides into biodiesel. Bimetallic nano-catalysts are known to provide synergistic effects and reasonably good surface stability. MOF-based catalysts provide the benefits of large surface areas, porosity, and active sites for the reaction to occur under mild conditions. In general, compared to traditional catalysts, both bimetallic nano-catalysts and MOF-based catalysts have better activity, stability, and reusability. This review surveys their synthesis, catalytic mechanisms, and performance optimization. We also discuss key issues, such as catalytic deactivation, leaching, and scalability, along with future directions for research to support industrial scale-up.

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生物柴油的催化前沿：双金属纳米催化剂与mof基绿色能源催化剂的比较研究进展

化石燃料对环境有不利影响，如全球变暖和气候变化，促使人们寻找替代品。生物燃料，尤其是生物柴油，是不错的选择。生物柴油通常是由植物性资源（废食用油、非食用油、食用油、藻类）用不同的催化剂进行酯交换或酯化反应而制成的。存在许多传统的均相和非均相催化剂，但肥皂形成，腐蚀，低可重复使用性和传质限制阻碍了工业应用。因此，许多最近的研究努力正在朝着先进的催化系统，可以避免这些问题。在这篇综述中，我们介绍了双金属纳米催化剂（Ni-Co, Pd-Ag, Pt-Au）和金属有机框架（MOF）催化剂（ZIF-8, UiO-66）在提高反应选择性和将甘油三酯转化为生物柴油方面的应用。已知双金属纳米催化剂具有协同效应和相当好的表面稳定性。基于mof的催化剂具有表面积大、孔隙率高、活性位点多的优点，可以在温和的条件下进行反应。总的来说，与传统催化剂相比，双金属纳米催化剂和mof基催化剂都具有更好的活性、稳定性和可重复使用性。本文综述了它们的合成、催化机理和性能优化。我们还讨论了催化失活、浸出和可扩展性等关键问题，以及支持工业规模扩大的未来研究方向。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Organometallic Chemistry 化学-无机化学与核化学

CiteScore

4.40

自引率

8.70%

发文量

221

审稿时长

36 days

期刊介绍： The Journal of Organometallic Chemistry targets original papers dealing with theoretical aspects, structural chemistry, synthesis, physical and chemical properties (including reaction mechanisms), and practical applications of organometallic compounds. Organometallic compounds are defined as compounds that contain metal - carbon bonds. The term metal includes all alkali and alkaline earth metals, all transition metals and the lanthanides and actinides in the Periodic Table. Metalloids including the elements in Group 13 and the heavier members of the Groups 14 - 16 are also included. The term chemistry includes syntheses, characterizations and reaction chemistry of all such compounds. Research reports based on use of organometallic complexes in bioorganometallic chemistry, medicine, material sciences, homogeneous catalysis and energy conversion are also welcome. The scope of the journal has been enlarged to encompass important research on organometallic complexes in bioorganometallic chemistry and material sciences, and of heavier main group elements in organometallic chemistry. The journal also publishes review articles, short communications and notes.