共沉淀反应参数如何控制氧化铁纳米颗粒的特性

IF 1.4 Q3 CHEMISTRY, MULTIDISCIPLINARY Physical Chemistry Research Pub Date : 2021-06-01 DOI:10.22036/PCR.2020.251463.1843
Sina Nejabat, S. R. Siadat, Zepiur Tahmasian, Fateme Mirzajani, F. Fatemi, S. Hosseinkhani, M. Abedi
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引用次数: 2

摘要

本研究的主要目的是通过共沉淀法寻找可重复性合成水溶性超顺磁性氧化铁纳米颗粒(SPIONs)的简单反应条件。为此,考察了碱溶液、工作气氛和最终反应温度对合成颗粒类型、尺寸和磁性能的影响。结果表明,在氨和1M NaOH两种不同的碱沉淀剂中,氨合成的样品具有良好的磁性,而1M NaOH在所有反应条件下都能生成非磁性的棕色悬浮液。以氨为碱沉淀剂合成的样品,其UV-Vis和XRD表现为典型的磁铁矿型。结果表明,反应温度越高,生成的黑色颗粒尺寸越小,氧化水平越低,结晶效果越好,饱和磁化强度越高。以氨为碱沉淀剂,反应温度为80℃,N2气氛下反应效果最佳。此外,在80℃的空气条件下,用25%的氨水制备的颗粒显示出令人满意的尺寸和磁性能。本研究采用的简单反应条件可用于大规模合成稳定的SPIONs。
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How Co-Precipitation Reaction Parameters Control the Characteristics and Features of Iron Oxide Nanoparticles
The main purpose of this study was to find a simple reaction condition for reproducible synthesis of water-soluble superparamagnetic iron oxide nanoparticles (SPIONs) through the co-precipitation method. For this purpose, the effect of alkali solution, working atmosphere and final reaction temperature on type, size and magnetic properties of synthesized particles were examined. The results reveal that from two different tested alkali precipitants including ammonia and 1M NaOH, samples synthesized using ammonia demonstrate proper magnetic properties, while the latter agent leads to production of nonmagnetic brown suspensions in all reaction conditions. UV-Vis and XRD showed the typical magnetite pattern for samples synthesized using ammonia as the alkali precipitant. In addition, the results show that higher reaction temperatures lead to the production of smaller size black particles with lower oxidation level, better crystallization, and higher saturation magnetization. The optimal results were obtained when the ammonia was used as an alkali precipitant and the reaction temperature was set to 80 C under N2 atmosphere. Furthermore, particles which were made under the air condition at 80 C using 25% ammonia, showed satisfactory dimensional and magnetic properties. The simple reaction condition used in this study could be applicable for large scale synthesis of stable SPIONs.
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来源期刊
Physical Chemistry Research
Physical Chemistry Research CHEMISTRY, MULTIDISCIPLINARY-
CiteScore
2.70
自引率
8.30%
发文量
18
期刊介绍: The motivation for this new journal is the tremendous increasing of useful articles in the field of Physical Chemistry and the related subjects in recent years, and the need of communication between Physical Chemists, Physicists and Biophysicists. We attempt to establish this fruitful communication and quick publication. High quality original papers in English dealing with experimental, theoretical and applied research related to physics and chemistry are welcomed. This journal accepts your report for publication as a regular article, review, and Letter. Review articles discussing specific areas of physical chemistry of current chemical or physical importance are also published. Subjects of Interest: Thermodynamics, Statistical Mechanics, Statistical Thermodynamics, Molecular Spectroscopy, Quantum Chemistry, Computational Chemistry, Physical Chemistry of Life Sciences, Surface Chemistry, Catalysis, Physical Chemistry of Electrochemistry, Kinetics, Nanochemistry and Nanophysics, Liquid Crystals, Ionic Liquid, Photochemistry, Experimental article of Physical chemistry. Mathematical Chemistry.
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