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Interrogation of bimetallic particle oxidation in three dimensions at the nanoscale.


ABSTRACT: An understanding of bimetallic alloy oxidation is key to the design of hollow-structured binary oxides and the optimization of their catalytic performance. However, one roadblock encountered in studying these binary oxide systems is the difficulty in describing the heterogeneities that occur in both structure and chemistry as a function of reaction coordinate. This is due to the complexity of the three-dimensional mosaic patterns that occur in these heterogeneous binary systems. By combining real-time imaging and chemical-sensitive electron tomography, we show that it is possible to characterize these systems with simultaneous nanoscale and chemical detail. We find that there is oxidation-induced chemical segregation occurring on both external and internal surfaces. Additionally, there is another layer of complexity that occurs during the oxidation, namely that the morphology of the initial oxide surface can change the oxidation modality. This work characterizes the pathways that can control the morphology in binary oxide materials.

SUBMITTER: Han L 

PROVIDER: S-EPMC5155145 | biostudies-literature | 2016 Dec

REPOSITORIES: biostudies-literature

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Interrogation of bimetallic particle oxidation in three dimensions at the nanoscale.

Han Lili L   Meng Qingping Q   Wang Deli D   Zhu Yimei Y   Wang Jie J   Du Xiwen X   Stach Eric A EA   Xin Huolin L HL  

Nature communications 20161208


An understanding of bimetallic alloy oxidation is key to the design of hollow-structured binary oxides and the optimization of their catalytic performance. However, one roadblock encountered in studying these binary oxide systems is the difficulty in describing the heterogeneities that occur in both structure and chemistry as a function of reaction coordinate. This is due to the complexity of the three-dimensional mosaic patterns that occur in these heterogeneous binary systems. By combining rea  ...[more]

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