Structural characterization of green synthesized α-Fe2O3 nanoparticles using the leaf extract of Spondias dulcis

Microporous α-Fe2O3 nanoparticles were synthesized by employing the extract of Spondias dulcis leaves by green-synthesis technique for the first time. The nanoparticles were characterized by many techniques. A continual absorption band without any peak in UV-vis spectrum and a strong signal for iron...

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Published in:Surfaces and interfaces 2020-09, Vol.20, p.100618, Article 100618
Main Authors: Vinayagam, Ramesh, Pai, Shraddha, Varadavenkatesan, Thivaharan, Narasimhan, Manoj Kumar, Narayanasamy, Selvaraju, Selvaraj, Raja
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Language:English
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BET
Green synthesis
Spondias dulcis
TGA
VSM
α-Fe2O3
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container_title Surfaces and interfaces
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creator Vinayagam, Ramesh
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Narayanasamy, Selvaraju
Selvaraj, Raja
description Microporous α-Fe2O3 nanoparticles were synthesized by employing the extract of Spondias dulcis leaves by green-synthesis technique for the first time. The nanoparticles were characterized by many techniques. A continual absorption band without any peak in UV-vis spectrum and a strong signal for iron and oxygen atoms in EDS confirmed the formation of iron-oxide nanoparticles. Rod-like structures with few aggregations due to magnetic interactions were witnessed in FE-SEM image. Specific peaks belonging to α-Fe2O3 nanoparticles were observed in XRD spectrum, and they were very pure and crystalline with a mean particle diameter of 11.38 nm. XPS analysis confirmed oxidation state of Fe and O and portrayed the presence of α-Fe2O3. A relatively higher surface area (190.84 m2/g) than reported green-synthesized α-Fe2O3 nanoparticles has been obtained by BET analysis, and the pores were microscopic (0.465 nm) in nature. Signature bands for Fe-O (1136 cm−1) and organic moieties stretching vibrations were confirmed by FTIR spectrum. The point of zero charge was determined as 7.97 which is concordant with the published value for α-Fe2O3. The thermal stability was ascertained by TGA which showed 28% weight loss. The synthesized α-Fe2O3 were superparamagnetic with a very high saturation magnetization value of 34.46 emu/g. Besides, a probable mechanism for the synthesis of microporous α-Fe2O3 has been proposed. Therefore, the highly pure, crystalline, and microporous α-Fe2O3 with high surface area, synthesized by this green synthesis method could play a significant role in various fields.
doi_str_mv 10.1016/j.surfin.2020.100618
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The thermal stability was ascertained by TGA which showed 28% weight loss. The synthesized α-Fe2O3 were superparamagnetic with a very high saturation magnetization value of 34.46 emu/g. Besides, a probable mechanism for the synthesis of microporous α-Fe2O3 has been proposed. 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subjects BET
Green synthesis
Spondias dulcis
TGA
VSM
α-Fe2O3
title Structural characterization of green synthesized α-Fe2O3 nanoparticles using the leaf extract of Spondias dulcis
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