Catalytic Fatty Acid Methyl Esters (FAMEs) Synthesis Using Lepidium aucheri Seed Oil and Its Antibacterial Potential

IF 2.3 4区 化学 Q3 CHEMISTRY, PHYSICAL Catalysis Letters Pub Date : 2024-11-17 DOI:10.1007/s10562-024-04876-8
Saeedah Musaed Almutairi, Sarah Faiez Aldossery, Khabibullaev Jamshidbek, Asqarov Ibrohimjon Rahmonovich, Azize Demirpolat, Khasanova Labor, Sabhya Pathania
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Abstract

One of the best renewable energy sources that can replace petroleum fuel is biodiesel, which may be produced through catalytic transesterification. However, there is a risk that some of these plant-based biofuels may actually promote bacterial colonies while damaging the methyl esters that are synthesised. The present study aimed to assess the cadmium oxide (CdO) nanocatalyst in the catalytic transesterification of Lepidium aucheri seed oil into fatty acid methyl esters (FAMEs) as a source of Biodiesel and the potential of the seed oil against bacterial activities as possible source of bio-additive for biofuels. For biodiesel synthesis, a cadmium oxide (CdO) nanocatalyst was synthesised and characterised via SEM, FT-IR, and EDX. The biodiesel yield using the CdO catalyst was 88% when the reaction was carried out for 2 h at 75 °C with an ideal mixture of 12:1 oil to methanol molar ratio and a catalyst concentration of 2% utilising LASO. The antibacterial activity of two bacterial strains (Escherichia coli and Bacillus subtilis) was investigated via the agar well diffusion method. The maximum antibacterial activity was observed with 100 µl of LASO, which inhibited Bacillus subtilis and Escherichia coli, resulting in a 24.7 mm inhibition zone. It was also put to use in the biodiesel synthesis process, trans-esterifying nonedible LASO into methyl esters for the synthesis of Biodiesel. The synthesised biodiesel was subjected to analyses via GC‒MS, FT‒IR, and NMR. The investigation concluded that the biodiesel sector may be used the feedstock as a raw material at the commercial level.

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利用乌桕籽油催化合成脂肪酸甲酯(FAMEs)及其抗菌潜力
生物柴油是可替代石油燃料的最佳可再生能源之一,可通过催化酯交换反应生产。然而,其中一些植物性生物燃料可能会在破坏合成的甲酯的同时促进细菌的繁殖。本研究旨在评估氧化镉(CdO)纳米催化剂在催化乌桕籽油酯交换转化为脂肪酸甲酯(FAMEs)过程中作为生物柴油来源的作用,以及该籽油作为生物燃料的生物添加剂对细菌活动的潜在影响。为合成生物柴油,合成了一种氧化镉(CdO)纳米催化剂,并通过 SEM、FT-IR 和 EDX 对其进行了表征。在 75 °C、12:1 油与甲醇摩尔比的理想混合物和 2% 的催化剂浓度下,使用 CdO 催化剂进行 2 小时的反应,生物柴油产量为 88%。通过琼脂井扩散法研究了两种细菌菌株(大肠杆菌和枯草杆菌)的抗菌活性。100 µl 的 LASO 可抑制枯草杆菌和大肠杆菌,产生 24.7 mm 的抑菌区,抗菌活性最高。它还被用于生物柴油的合成过程,将不可食用的 LASO 转化为甲酯,用于合成生物柴油。合成的生物柴油通过气相色谱-质谱、傅立叶变换红外光谱和核磁共振进行了分析。调查得出的结论是,生物柴油部门可将这种原料用作商业层面的原材料。
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来源期刊
Catalysis Letters
Catalysis Letters 化学-物理化学
CiteScore
5.70
自引率
3.60%
发文量
327
审稿时长
1 months
期刊介绍: Catalysis Letters aim is the rapid publication of outstanding and high-impact original research articles in catalysis. The scope of the journal covers a broad range of topics in all fields of both applied and theoretical catalysis, including heterogeneous, homogeneous and biocatalysis. The high-quality original research articles published in Catalysis Letters are subject to rigorous peer review. Accepted papers are published online first and subsequently in print issues. All contributions must include a graphical abstract. Manuscripts should be written in English and the responsibility lies with the authors to ensure that they are grammatically and linguistically correct. Authors for whom English is not the working language are encouraged to consider using a professional language-editing service before submitting their manuscripts.
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