Highly sensitive surface plasmon resonance-based sensor using green synthesized Fe3O4/rGO interface layer utilizing plant leaf extracts for alcohol compound detection

IF 4.3 2区化学 Q1 SPECTROSCOPY

Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy Pub Date : 2025-04-18 DOI:10.1016/j.saa.2025.126266

Vincent Milano , Muhammad Riswan , Putri Dwi Jayanti , Nurul Imani Istiqomah , Zurnansyah , Nugraheni Puspita Rini , Karina Anggraeni , Nining Sumawati Asri , Julia Angel , Abhishek Sharma , Daoud Ali , Chotimah , Edi Suharyadi

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Abstract

In this study, a fast response, real time, accurate, and non destructive alcohol detection method using surface plasmon resonance (SPR) technique was purposed. The SPR measurement was performed using 5-layers Krestchmann configuration with a layer structure of prism/Au thin film/Fe₃O₄/rGO nanocomposite/alcohol compounds/air. The Fe₃O₄/rGO nanocomposite was successfully synthesized using the green route utilizing Moringa oleifera and Amaranthus viridis leaf extract. X-ray diffraction analysis showed the nanocomposite has a face-centered cubic with an inverse spinel structure with a crystallite size of 5.6–5.8 nm. The size of Fe₃O₄ NPs in the Fe₃O₄/rGO nanocomposite was variated from 10.6–13.0 nm and showed that there is no impurities in the sample. Fourier transform infra-red analysis also validates the existence of Fe₃O₄ and rGO indicated by the FeO and CC bond, respectively. The interaction between Fe₃O₄ and rGO can also be observed through the coordinational bonding FeOC, which is validated by the presence of FeO and CO bonds. The optical properties were studied using ultraviolet–visible spectroscopy, which shows an energy gap of 2.36 eV. Magnetic properties of Fe₃O₄/rGO nanocomposite show a superparamagnetic characteristic with the saturation magnetization of 40.53 emu/g, magnetic susceptibility of 3.62

\times

10⁻², and the domain size is 6.22 nm. The SPR angle shifts when applied with Fe₃O₄/rGO nanocomposite. The addition of alcohol compound further shifted the SPR angle by 0.22°, 0.61°, and 1.19° for methanol, ethanol, and IPA, respectively. This noticeable shift shows a possibility for early detection to differentiate these 3 compounds. The presence of a magnetic field further shifts the SPR angle by 0.08°, 0.08°, and 0.10° for 40, 60, and 80 Oe, which indicates an increase in sensitivity. Therefore, the combination of applied magnetic field and green synthesized Fe₃O₄/rGO nanocomposite as an eco-friendly interface layer are potential to enhance the sensitivity of SPR to detect the alcohol compounds.

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基于表面等离子体共振的高灵敏度传感器，采用绿色合成Fe3O4/rGO界面层，利用植物叶片提取物进行酒精化合物检测

本研究旨在建立一种快速响应、实时、准确、无损的表面等离子体共振（SPR）酒精检测方法。SPR测量采用5层Krestchmann构型，采用棱镜/Au薄膜/Fe3O4/rGO纳米复合材料/酒精化合物/空气的层状结构。以辣木和苋菜叶提取物为原料，采用绿色路线成功合成了Fe3O4/氧化石墨烯纳米复合材料。x射线衍射分析表明，该纳米复合材料为面心立方，具有反尖晶石结构，晶粒尺寸为5.6 ~ 5.8 nm。Fe3O4/rGO纳米复合材料中Fe3O4 NPs的尺寸在10.6 ~ 13.0 nm之间变化，表明样品中没有杂质。傅里叶变换红外分析也证实了FeO和CC键分别表示的Fe3O4和rGO的存在。Fe3O4和rGO之间的相互作用也可以通过配位键FeOC观察到，这通过FeO和CO键的存在得到了验证。利用紫外-可见光谱对其光学性质进行了研究，发现其能隙为2.36 eV。Fe3O4/rGO纳米复合材料具有超顺磁性，饱和磁化强度为40.53 emu/g，磁化率为3.62 × 10−2，畴尺寸为6.22 nm。在Fe3O4/rGO纳米复合材料中，SPR角发生位移。醇类化合物的加入进一步使甲醇、乙醇和IPA的SPR角分别改变了0.22°、0.61°和1.19°。这一显著的变化显示了早期检测区分这3种化合物的可能性。磁场的存在使SPR角在40,60,80oe时进一步移动0.08°，0.08°和0.10°，这表明灵敏度增加。因此，将外加磁场与绿色合成的Fe3O4/rGO纳米复合材料结合作为生态友好的界面层，有可能提高SPR对醇类化合物的检测灵敏度。

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来源期刊

Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 物理-光谱学

CiteScore

8.40

自引率

11.40%

发文量

1364

审稿时长

40 days

期刊介绍： Spectrochimica Acta, Part A: Molecular and Biomolecular Spectroscopy (SAA) is an interdisciplinary journal which spans from basic to applied aspects of optical spectroscopy in chemistry, medicine, biology, and materials science. The journal publishes original scientific papers that feature high-quality spectroscopic data and analysis. From the broad range of optical spectroscopies, the emphasis is on electronic, vibrational or rotational spectra of molecules, rather than on spectroscopy based on magnetic moments. Criteria for publication in SAA are novelty, uniqueness, and outstanding quality. Routine applications of spectroscopic techniques and computational methods are not appropriate. Topics of particular interest of Spectrochimica Acta Part A include, but are not limited to: Spectroscopy and dynamics of bioanalytical, biomedical, environmental, and atmospheric sciences, Novel experimental techniques or instrumentation for molecular spectroscopy, Novel theoretical and computational methods, Novel applications in photochemistry and photobiology, Novel interpretational approaches as well as advances in data analysis based on electronic or vibrational spectroscopy.