Co–Fe–oxide nanoparticles supported on the various highly dispersed matrices: the effect of the carrier on structural and magnetic properties

IF 3 4区工程技术 Q3 CHEMISTRY, PHYSICAL

Adsorption Pub Date : 2023-11-06 DOI:10.1007/s10450-023-00417-8

Alla Dyachenko, Konrad Terpilowski, Olena Ischenko, Iryna Sulym, Dariusz Sternik, Eugen Pakhlov, Mykola Borysenko, Lyudmila Storozhuk, Lyudmila Andriyko, Olena Goncharuk

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Abstract

Abstracts A series of mixed oxides was synthesized by deposition of the guest phase on the highly dispersed oxide matrix. Fumed nanooxides SiO 2 , Al 2 O 3 , SiO 2 /Al 2 O 3 , and SiO 2 /Al 2 O 3 /TiO 2 with the specific surface area of 65–91 m 2 /g were selected as highly dispersed matrices. Co–Fe mixed oxides with the general formula Co 4x Fe x O y (Co: Fe = 4: 1) were deposited as the guest oxides using the two-step method: (i) solvate-stimulated modification of the surface of fumed nanocarriers with the mixture of cobalt nitrate (II) and iron (III) formate and (ii) subsequent heat treatment up to 600 °C to form Co 4x Fe x O y . The aim of this paper was to study the influence of the composition and structure of fumed oxide matrices and deposited guest phase on the morphology of the resulting composites in the gaseous and aqueous media using the XRD, XPS, FTIR, nitrogen adsorption and SEM/EDX, as well as quasi-elastic light scattering (QELS) methods. The low-temperature nitrogen adsorption isotherms have a sigmoidal shape with a narrow hysteresis loop characteristic of mesoporous materials. The specific surface area ( S BET ) of the composites varies from 48 to 82 m 2 /g, showing a tendency towards a decrease in the S BET values by 10–26% in comparison with the initial nanocarriers. The SEM data show the denser aggregate structure of nanocomposites compared to the initial carriers. The primary particle size was in the 30–60 nm range and the EDX data confirm the formation of a guest phase on the mixed aluminosilicate carriers, mainly in the surface patches corresponding to the alumina structure. According to the QELS data, there is a tendency to form aggregates of 100–10 μm in size in the aqueous media. The XRD method shows that the deposited metal oxides are in the form of crystalline phases of Co 3 O 4 with the crystallites of 25–26 nm in size for the individual SiO 2 and Al 2 O 3 nanocarriers and 34–37 for the mixed ones, but the iron oxide reflections were not identified for the composites. XPS observation demonstrates the signal of Fe 2p electrons as the form of Fe 2 O 3 oxide in the surface layer of nanocomposites as well as Co 2p as the Co 3 O 4 and Co(OH) 2 .

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在各种高度分散的基质上支持的Co-Fe-oxide纳米颗粒:载体对结构和磁性能的影响

摘要在高度分散的氧化物基体上沉积客体相，合成了一系列混合氧化物。气相纳米氧化物sio2、al2o3、sio2 / al2o3和sio2 / al2o3 / tio2的比表面积为65 ~ 91 m2 /g。采用两步法(i)用硝酸钴(II)和甲酸铁(III)的混合物对气相纳米载体表面进行溶剂刺激改性，(II)随后加热至600°C形成Co 4x Fe x oy的Co - Fe混合氧化物(Co: Fe = 4:1)作为客氧化物沉积。采用XRD、XPS、FTIR、氮气吸附、SEM/EDX以及准弹性光散射(QELS)等方法，研究气相氧化基和沉积客体相的组成和结构对气相和水相复合材料形貌的影响。低温氮吸附等温线呈s形，具有介孔材料的窄滞回线特征。复合材料的比表面积(S BET)在48 ~ 82 m2 /g之间变化，与初始纳米载体相比，S BET值有下降10 ~ 26%的趋势。SEM数据表明，纳米复合材料的聚集结构比初始载体更致密。初级粒径在30-60 nm范围内，EDX数据证实混合铝硅酸盐载体上形成了客体相，主要在与氧化铝结构相对应的表面斑块中形成。根据QELS数据，在水介质中有形成100-10 μm大小的团聚体的趋势。XRD分析表明，沉积的金属氧化物为co3o4晶相，单个sio2和al2o3纳米载体的晶粒尺寸为25 ~ 26 nm，混合sio2和al2o3纳米载体的晶粒尺寸为34 ~ 37 nm，复合材料未发现铁氧化物反射。XPS观察表明，在纳米复合材料的表层中，Fe 2p电子以fe2o3的形式存在，而Co 2p电子以co2o3和Co(OH) 2的形式存在。

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来源期刊

Adsorption 工程技术-工程：化工

CiteScore

8.10

自引率

3.00%

发文量

审稿时长

2.4 months

期刊介绍： The journal Adsorption provides authoritative information on adsorption and allied fields to scientists, engineers, and technologists throughout the world. The information takes the form of peer-reviewed articles, R&D notes, topical review papers, tutorial papers, book reviews, meeting announcements, and news. Coverage includes fundamental and practical aspects of adsorption: mathematics, thermodynamics, chemistry, and physics, as well as processes, applications, models engineering, and equipment design. Among the topics are Adsorbents: new materials, new synthesis techniques, characterization of structure and properties, and applications; Equilibria: novel theories or semi-empirical models, experimental data, and new measurement methods; Kinetics: new models, experimental data, and measurement methods. Processes: chemical, biochemical, environmental, and other applications, purification or bulk separation, fixed bed or moving bed systems, simulations, experiments, and design procedures.