用聚乙二醇（PEG-4000）和二氧化硅爆炸的微粒镁铁氧体（MgFe2O4）上的功能团分析

Journal on Satisfiability, Boolean Modeling and Computation Pub Date : 2018-06-25 DOI:10.35472/281473

Deska Lismawening Puspitarum

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引用次数: 1

摘要

采用共沉淀法，采用不同浓度的PEG-4000和二氧化硅作为包封材料，成功制备了镁铁氧体镁(MgFe2O4)磁性纳米颗粒。x射线衍射(XRD)分析表明，PEG-4000包封后MgFe2O4中出现了新的相，即α-Fe2O3具有顺磁菱形和γ-FeO (OH)结构。MgFe2O4包封前粒径为10.5 nm, PEG-4000包封后粒径为5.2 nm，二氧化硅包封后粒径为18.8 nm。用二氧化硅包封后，出现了新的衍射场222的晶体峰。傅里叶变换红外(FTIR)分析结果表明，在PEG-4000包覆的MgFe2O4中，CH键的波数从2885.5 cm-1移动到2924.1 cm-1，金属氧化物键(MO)的波数从316.3 cm-1移动到300.9 cm-1，这是MgFe2O4的均匀模式。在455.2 cm-1的Si-O-Si(弯曲)基团中显示了涂覆磁性材料的二氧化硅的存在。

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ANALISA GUGUS FUNGSI PADA NANOPARTIKEL MAGNESIUM FERRITE (MgFe2O4) YANG DIENKAPSULASI DENGAN POLYETHYLENE GLYCOL (PEG-4000) DAN SILIKA

Magnesium Ferrite Magnesium (MgFe2O4) magnetic nanoparticles have been successfully carried out by varying the concentrations of PEG-4000 and silica as encapsulation materials using coprecipitation methods. The X-ray Diffraction (XRD) analysis showed that new phases appeared in MgFe2O4 after PEG-4000 encapsulation, ie α-Fe2O3 having a paramagnetic rhombohedral and γ-FeO (OH) structure. The particle size of MgFe2O4 before encapsulation was 10.5 nm, after encapsulation with PEG-4000 became 5.2 nm and encapsulation with silica became 18.8 nm. In encapsulation with silica, the peak of the new diffraction field 222 which is a crystal appears. The result of Fourier Transform Infra-Red (FTIR) analysis showed that in MgFe2O4 coated with PEG-4000, there was a shifting in the wave number 2885.5 cm-1 to 2924.1 cm-1 in CH bond which was the bond of PEG- 4000 and a shifting in the wave number 316.3 cm-1 to 300.9 cm-1 on the metal oxide bond (MO) which is a uniform pattern of MgFe2O4. The presence of silica which has coated the magnetic material is shown in the 455.2 cm-1 number of Si-O-Si (bending) group.

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Journal on Satisfiability, Boolean Modeling and Computation

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