Talaromyces purpureogenus-mediated mycosynthesis of aluminium oxide nanoparticles and characterization of the physicochemical properties at different calcination temperatures

IF 2.9 3区生物学 Q2 MYCOLOGY

Fungal biology Pub Date : 2025-03-13 DOI:10.1016/j.funbio.2025.101570

Muhammad Salahudin Kheirel Anuar , Che Azurahanim Che Abdullah , Muhammad Farhan Nazarudin , Shamsu Ibrahim Ishaq , Mohammad Noor Amal Azmai , Annas Salleh , Ina Salwany Md Yasin , Mohd Termizi Yusof

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引用次数: 0

Abstract

The study reports an environmentally friendly and simple green technique for the synthesis of aluminium oxide nanoparticles (Al₂O₃-NPs). The green synthesis of Al₂O₃-NPs using natural products has garnered significant interest due to their non-toxic, cost-effective, convenient, and eco-friendly nature. However, there is limited literature on the green synthesis of Al₂O₃-NPs using fungal materials and the influence of calcination temperatures on the physicochemical characteristics of mycogenic nanoparticles (NPs). To date, no studies have explored the influence of calcination temperatures on the physicochemical characteristics of mycogenic Al₂O₃-NPs. This study aimed to compare and characterize the mycogenic synthesis of Al₂O₃-NPs and investigate how three different calcination temperatures influence the structural properties of the NPs. In this study, Al₂O₃-NPs were synthesized using the Talaromyces purpureogenus isolate SD7 through extracellular production. To study the effects of calcination temperatures on the physicochemical properties of the NPs, the mycogenic Al₂O₃-NPs were calcined at temperatures ranging from 550 °C to 750 °C based on thermogravimetric analysis. The samples were further characterized using various spectroscopic and imaging techniques. The analysis of ultraviolet–visible (UV–Vis) spectrophotometer, X-ray diffraction (XRD), and high-resolution transmission electron microscopy (HR-TEM) demonstrated that particle size escalated with elevated calcination temperatures. Characterization techniques using field emission scanning electron microscopy (FESEM), HR-TEM, and XRD confirmed that the Al₂O₃-NPs exhibited both rod-like, spherical structures with irregular sizes, and showed the presence of nanocrystalline γ-Al₂O₃. However, only the sample calcined at 550 °C remains within the nanoscale range, whereas samples treated at higher temperatures show considerable grain growth, exceeding the nanometer scale. This study showcases the potential of mycosynthesized Al₂O₃-NPs using fungal material as an eco-friendly alternative. It also emphasizes the significant influence of calcination temperatures on the structural and physicochemical properties of mycogenic Al₂O₃-NPs, underscoring their suitability for a wide range of applications.

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Talaromyces purpureogenus介导的真菌合成氧化铝纳米颗粒及其在不同煅烧温度下的理化性质表征

该研究报告了一种环境友好和简单的绿色技术，用于合成氧化铝纳米颗粒（Al2O3-NPs）。利用天然产物绿色合成Al2O3-NPs因其无毒、经济、方便、环保等特点而受到广泛关注。然而，利用真菌材料绿色合成Al2O3-NPs以及煅烧温度对真菌源性纳米颗粒（NPs）物理化学特性的影响的文献有限。迄今为止，还没有研究探讨了煅烧温度对真菌源性Al2O3-NPs的理化特性的影响。本研究旨在比较和表征真菌原合成Al2O3-NPs，并研究三种不同的煅烧温度对NPs结构性质的影响。本研究以Talaromyces purpureogenus分离物SD7为原料，通过胞外生产合成了Al2O3-NPs。为了研究煅烧温度对NPs物理化学性质的影响，基于热重分析，在550 ~ 750℃的温度范围内对真菌原Al2O3-NPs进行了煅烧。使用各种光谱和成像技术进一步表征样品。紫外-可见（UV-Vis）分光光度计、x射线衍射（XRD）和高分辨率透射电子显微镜（HR-TEM）分析表明，随着煅烧温度的升高，颗粒尺寸逐渐增大。利用场发射扫描电镜（FESEM）、HR-TEM和XRD等表征技术证实，Al2O3-NPs具有不规则尺寸的棒状球形结构，并具有纳米晶γ-Al2O3的存在。然而，只有在550℃下煅烧的样品保持在纳米尺度范围内，而在更高温度下处理的样品显示出相当大的晶粒生长，超过了纳米尺度。这项研究展示了真菌合成Al2O3-NPs作为一种环保替代品的潜力。它还强调了煅烧温度对真菌源性Al2O3-NPs的结构和物理化学性质的重要影响，强调了它们具有广泛的应用适用性。

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来源期刊

Fungal biology MYCOLOGY-

CiteScore

5.80

自引率

4.00%

发文量

审稿时长

49 days

期刊介绍： Fungal Biology publishes original contributions in all fields of basic and applied research involving fungi and fungus-like organisms (including oomycetes and slime moulds). Areas of investigation include biodeterioration, biotechnology, cell and developmental biology, ecology, evolution, genetics, geomycology, medical mycology, mutualistic interactions (including lichens and mycorrhizas), physiology, plant pathology, secondary metabolites, and taxonomy and systematics. Submissions on experimental methods are also welcomed. Priority is given to contributions likely to be of interest to a wide international audience.