Correlating surface stoichiometry and termination in SrTiO3 films grown by hybrid molecular beam epitaxy

化学计量学 X射线光电子能谱 分子束外延 材料科学 薄膜 氧化物 扫描隧道显微镜 分析化学(期刊) 钛酸锶 外延 化学工程 纳米技术 图层(电子) 化学 物理化学 工程类 冶金 色谱法
作者
Suresh Thapa,Sydney Provence,Devin Jessup,Jason Lapano,Matthew Brahlek,Jerzy T. Sadowski,Petra Reinke,Wencan Jin,R. Comès
出处
期刊:Journal of vacuum science & technology [American Institute of Physics]
卷期号:39 (5) 被引量:3
标识
DOI:10.1116/6.0001159
摘要

Hybrid oxide molecular beam epitaxy (hMBE), a thin-film deposition technique in which transition metal cations are delivered using a metal-organic precursor, has emerged as the state-of-the-art approach to the synthesis of electronic-grade complex oxide films with a stoichiometric growth window. However, numerous questions remain regarding the chemical mechanisms of the growth process and the surface properties of the resulting films. To examine these properties, thin film SrTiO3 (STO) was prepared by hMBE using a titanium tetraisopropoxide (TTIP) precursor for Ti delivery and an elemental Sr source on annealed STO and Nb-doped STO substrates with varying TTIP:Sr flux ratios to examine the conditions for the reported stoichiometric growth window. The films were transferred in vacuo to an x-ray photoelectron spectroscopy system to study the surface elemental composition. Samples were examined using x-ray diffraction to compare our surface sensitive results with previously reported measurements of the bulk of the films in the literature. Ex situ studies by atomic force microscopy, scanning tunneling microscopy, and low-energy electron microscopy confirmed the presence of surface reconstructions and an Ehrlich–Schwoebel barrier consistent with A-site SrO termination. We find that a surface exhibiting a mixture of SrO and TiO2 termination or a full SrO termination is necessary to obtain stoichiometric adsorption-controlled growth. These results indicate that surface Sr is necessary to maintain the chemical equilibrium for stoichiometric growth during the hMBE process, which is important for the design of future interfacial systems using this technique.
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