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从亚饱和等离子体增强原子层沉积将“锌锥”状转变为多孔氧化锌薄膜

On the transformation of "zincone"-like into porous ZnO thin films from sub-saturated plasma enhanced atomic layer deposition.

作者信息

Perrotta Alberto, Pilz Julian, Pachmajer Stefan, Milella Antonella, Coclite Anna Maria

机构信息

Institute of Solid State Physics, NAWI Graz, Graz University of Technology, Petersgasse 16, 8010 Graz, Austria.

Department of Chemistry, Università degli studi di Bari, Via E. Orabona 4, 70126, Bari, Italy.

出版信息

Beilstein J Nanotechnol. 2019 Mar 21;10:746-759. doi: 10.3762/bjnano.10.74. eCollection 2019.

Abstract

The synthesis of nanoporous ZnO thin films is achieved through annealing of zinc-alkoxide ("zincone"-like) layers obtained by plasma-enhanced atomic layer deposition (PE-ALD). The zincone-like layers are deposited through sub-saturated PE-ALD adopting diethylzinc and O plasma with doses below self-limiting values. Nanoporous ZnO thin films were subsequently obtained by calcination of the zincone-like layers between 100-600 °C. Spectroscopic ellipsometry (SE) and X-ray diffraction (XRD) were adopted in situ during calcination to investigate the removal of carbon impurities, development of controlled porosity, and formation and growth of ZnO crystallites. The layers developed controlled nanoporosity in the range of 1-5%, with pore sizes between 0.27 and 2.00 nm as measured with ellipsometric porosimetry (EP), as a function of the plasma dose and post-annealing temperature. Moreover, the crystallinity and crystallite orientation could be tuned, ranging from a powder-like to a (100) preferential growth in the out-of-plane direction, as measured by synchrotron-radiation grazing incidence XRD. Calcination temperature ranges were identified in which pore formation and subsequent crystal growth occurred, giving insights in the manufacturing of nanoporous ZnO from Zn-based hybrid materials.

摘要

通过对等离子体增强原子层沉积(PE-ALD)获得的锌醇盐(类“锌酮”)层进行退火处理,实现了纳米多孔ZnO薄膜的合成。类锌酮层通过采用二乙基锌和剂量低于自限阈值的O等离子体的亚饱和PE-ALD进行沉积。随后通过在100-600°C之间煅烧类锌酮层获得纳米多孔ZnO薄膜。在煅烧过程中采用光谱椭偏仪(SE)和X射线衍射(XRD)原位研究碳杂质的去除、可控孔隙率的发展以及ZnO微晶的形成和生长。这些层形成了1-5%范围内的可控纳米孔隙率,用椭偏孔隙率测定法(EP)测量,孔径在0.27至2.00nm之间,这是等离子体剂量和退火后温度的函数。此外,通过同步辐射掠入射XRD测量,结晶度和微晶取向可以调节,范围从粉末状到面外方向的(100)择优生长。确定了煅烧温度范围,在此范围内发生了孔隙形成和随后的晶体生长,为从锌基混合材料制造纳米多孔ZnO提供了见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e886/6444448/9d3990fe4ab2/Beilstein_J_Nanotechnol-10-746-g002.jpg

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