In-line electronic and structural characterization of reactively sputtered Cu-Co-Mn black spinel oxides

Journal of Vacuum Science and Technology Pub Date : 2021-08-25 DOI:10.1116/6.0001120

A. Krammer, M. Lagier, A. Schüler

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Abstract

Cu-Co-Mn spinel oxide thin films are deposited by reactive magnetron sputtering. The x-ray diffraction (XRD) spectrum suggests a nanocrystalline spinel film when sputtered at ≈465 °C. In-line scanning tunneling microscopy confirms nanometric sized grains in the order of 5–10 nm, which then form larger agglomerations of 30–70 nm as observed by scanning electron microscopy. The pristine sample surfaces are characterized by in-line UV photoelectron spectroscopy (UPS) and x-ray photoelectron spectroscopy (XPS). From UPS He I and He II spectra, a valence band edge of 0.38 eV, compatible with a bandgap of ≈0.8 eV, is determined. XPS infers Cu2+, Co3+, and Mn3+ as dominant, thus, fitting well the general spinel formula A2+B23+O42−. The elemental quantification based on XPS core-level peak integration indicates some Cu enrichment and a secondary CuO phase formation at the spinel surface that is congruent with the XRD results where peaks associated with tenorite CuO are also identified. The partially filled 3d bands make the Cu-Co-Mn oxides a promising candidate for selective solar absorbers. The measured spectral reflectance of CuCoMnOx//SiO2 double layer yields a solar absorptance of 0.8 and thermal emittance of 0.05. The coating durability and thermal stability in the air have been confirmed by accelerated aging tests at 270 °C for a duration of 600 h.

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反应溅射Cu-Co-Mn黑色尖晶石氧化物的在线电子和结构表征

采用反应磁控溅射法制备了Cu-Co-Mn尖晶石氧化物薄膜。x射线衍射(XRD)表明，在≈465°C溅射时形成纳米尖晶石膜。在线扫描隧道显微镜确认了5-10 nm量级的纳米尺寸的颗粒，然后形成30-70 nm的更大的团块，扫描电子显微镜观察到。用紫外光电子能谱(UPS)和x射线光电子能谱(XPS)对原始样品表面进行了表征。从UPS He I和He II光谱中，确定了0.38 eV的价带边，兼容≈0.8 eV的带隙。XPS推断出Cu2+、Co3+和Mn3+为主，符合一般尖晶石公式A2+B23+O42−。基于XPS核级峰积分的元素定量分析表明，尖晶石表面有Cu富集和二次CuO相形成，这与XRD结果一致，其中也发现了与tenorite CuO相关的峰。部分填充的三维带使Cu-Co-Mn氧化物成为选择性太阳能吸收剂的有希望的候选者。CuCoMnOx/ SiO2双膜的光谱反射率为0.8，热发射率为0.05。通过270℃、600 h的加速老化试验，证实了涂层在空气中的耐久性和热稳定性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Vacuum Science and Technology

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