C. Maccato, Lorenzo Bigiani, M. Klotzsche, D. Barreca, A. Gasparotto
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引用次数: 2
Abstract
In this work, x-ray photoelectron spectroscopy was employed to characterize the surface composition and elemental chemical states of supported Co3O4-SnO2 and Co3O4-Fe2O3 nanocomposites. The present materials were prepared on Si(100) substrates by the chemical vapor deposition of cobalt oxide under O2 + H2O atmospheres, followed by the tailored introduction of SnO2 or Fe2O3 by means of radio frequency-sputtering. Material structural and morphological characterization revealed the formation of nanocomposite heterostructures involving a conformal Co3O4 coverage by SnO2 or Fe2O3 overlayers. Survey spectra as well as detailed scans of C 1s, O 1s, Co 2p, Sn 3d, and Fe 2p regions are presented and critically discussed. The results provide evidence for the formation of pure and oxygen-deficient nanocomposites, and the occurrence of an electronic interplay between the single oxide constituents.
本文采用x射线光电子能谱对负载型Co3O4-SnO2和Co3O4-Fe2O3纳米复合材料的表面组成和元素化学状态进行了表征。该材料是在Si(100)衬底上,通过在O2 + H2O气氛下化学气相沉积氧化钴,然后通过射频溅射定向引入SnO2或Fe2O3制备的。材料结构和形态表征表明,形成了由SnO2或Fe2O3覆盖的Co3O4共形纳米复合异质结构。测量光谱以及详细扫描的c1s, O 1s, Co 2p, Sn 3d,和Fe 2p区域提出和批判性地讨论。该结果为纯和缺氧纳米复合材料的形成以及单一氧化物组分之间电子相互作用的发生提供了证据。
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