Structural and chemical characterization of novel NixZn1−xGa2O4 nanocatalysts at atomic resolution

NixZn1−xGa2O4 has already been demonstrated as a noteworthy example of potentially useful catalytic properties such as NOx reduction. In our previous work, it was interesting to find out that the operating temperature of NiGa2O4 catalyst in NOx reduction can be tuned by simple chemical substitution...

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Bibliographic Details
Published inApplied surface science Vol. 353; pp. 419 - 424
Main Authors Xu, Qian, Wu, Zhaochun, Hong, Jinhua, Chang, Xiaofeng, Li, Xueji, Yan, Shicheng, Wang, Peng
Format Journal Article
LanguageEnglish
Published Elsevier B.V 30.10.2015
Subjects
Catalyst
EDS
HAADF
NiGa2O4
TEM
ZnGa2O4
ZnGa2O4
NiGa2O4
EDS
TEM
Catalyst
HAADF
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Summary:NixZn1−xGa2O4 has already been demonstrated as a noteworthy example of potentially useful catalytic properties such as NOx reduction. In our previous work, it was interesting to find out that the operating temperature of NiGa2O4 catalyst in NOx reduction can be tuned by simple chemical substitution of Ni2+ by Zn2+. It is believed that the mechanism behind such stoichiometry-dependence on operating temperature should be strongly correlated with microstructure, surface morphology as well as the local composition of the nanocatalysts. In the present investigation, NixZn1−xGa2O4 solid solution was synthesized via a hydrothermal ion-exchange reaction, using NaGaO2 and the corresponding acetic salts as the starting materials. By means of a state-of-the-art aberration corrected STEM and high resolution TEM, the structural and chemical characterization at the atomic scale on the NixZn1−xGa2O4 nanocatalyst was carried out, including the crystal structure, size, morphology, surface structure and local composition. It is found that the catalyst was solid solution and most possible exposed facets may be (111).
ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2015.06.032