ni - zno - ag纳米复合材料降解亚甲基蓝染料的快速合成及研究

IF 5.1 2区材料科学 Q1 MATERIALS SCIENCE, CERAMICS

Ceramics International Pub Date : 2019-08-15 DOI:10.1016/j.ceramint.2019.04.229

Samireh Mohammadi Aydoghmish, S.A. Hassanzadeh-Tabrizi, A. Saffar-Teluri

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引用次数: 52

摘要

本研究采用两段沉淀法合成了ni - zno - ag光催化纳米复合材料。采用XRD、FESEM、FT-IR、TGA、UV-Vis等技术对合成的复合粉体进行了表征。XRD结果表明，随着Ag含量的增加，ZnO的晶粒尺寸减小。FESEM显微图显示，Ag的加入可以形成更均匀的粒径在30-500 nm范围内的颗粒。漫反射光谱结果证实，Ag纳米粒子的加入导致了光吸收的增加，这归因于Ag的等离子体表面共振。NiO-ZnO、NiO-ZnO - 5% ag、NiO-ZnO - 3% ag、NiO-ZnO - 1% ag和ZnO-1%Ag的带隙能分别为3.13、3.14、3.147、3.19和3.17 eV。降解过程研究表明，在NiO-ZnO复合材料中添加1 wt%的Ag可使亚甲基蓝的降解率从67%提高到94%，但添加量越高，亚甲基蓝的降解率越低。

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Facile synthesis and investigation of NiO–ZnO–Ag nanocomposites as efficient photocatalysts for degradation of methylene blue dye

In the present study, NiO–ZnO–Ag photocatalytic nanocomposites were synthesized using two-stage precipitation method. The synthesized composite powders were investigated and characterized using different techniques including XRD, FESEM, FT-IR, TGA and UV–Vis. XRD results showed that by increasing the Ag content, the crystallite size of ZnO decreased. FESEM micrographs showed that addition of Ag could lead to formation of more uniform particles in the size range of 30–500 nm. Diffuse reflectance spectroscopy results confirmed that addition of Ag nanoparticles led to the increase of light absorption, which was attributed to the plasmon surface resonance of Ag. Band gap energies of NiO–ZnO, NiO–ZnO–5%Ag, NiO–ZnO–3%Ag, NiO–ZnO–1%Ag and ZnO–1%Ag were estimated to be 3.13, 3.14, 3.147, 3.19 and 3.17 eV, respectively. Investigation of degradation process showed that by adding up to 1 wt% Ag to NiO–ZnO composite led to the increase of methylene blue degradation from 67% to 94%, but further addition resulted in decrease of degradation.

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来源期刊

Ceramics International 工程技术-材料科学：硅酸盐

CiteScore

9.40

自引率

15.40%

发文量

4558

审稿时长

25 days

期刊介绍： Ceramics International covers the science of advanced ceramic materials. The journal encourages contributions that demonstrate how an understanding of the basic chemical and physical phenomena may direct materials design and stimulate ideas for new or improved processing techniques, in order to obtain materials with desired structural features and properties. Ceramics International covers oxide and non-oxide ceramics, functional glasses, glass ceramics, amorphous inorganic non-metallic materials (and their combinations with metal and organic materials), in the form of particulates, dense or porous bodies, thin/thick films and laminated, graded and composite structures. Process related topics such as ceramic-ceramic joints or joining ceramics with dissimilar materials, as well as surface finishing and conditioning are also covered. Besides traditional processing techniques, manufacturing routes of interest include innovative procedures benefiting from externally applied stresses, electromagnetic fields and energetic beams, as well as top-down and self-assembly nanotechnology approaches. In addition, the journal welcomes submissions on bio-inspired and bio-enabled materials designs, experimentally validated multi scale modelling and simulation for materials design, and the use of the most advanced chemical and physical characterization techniques of structure, properties and behaviour. Technologically relevant low-dimensional systems are a particular focus of Ceramics International. These include 0, 1 and 2-D nanomaterials (also covering CNTs, graphene and related materials, and diamond-like carbons), their nanocomposites, as well as nano-hybrids and hierarchical multifunctional nanostructures that might integrate molecular, biological and electronic components.