Plasma electron characterization in electron chemical vapor deposition

表征(材料科学) 化学气相沉积 等离子体 等离子体增强化学气相沉积 等离子体处理 电子 电子束物理气相沉积 材料科学 沉积(地质) 化学工程 化学 纳米技术 物理 地质学 工程类 核物理学 沉积物 古生物学
作者
Pentti Niiranen,Anna Kapran,Hama Nadhom,Martin Čada,Zdeněk Hubička,Henrik Pedersen,Daniel Lundin
出处
期刊:Journal of vacuum science & technology [American Institute of Physics]
卷期号:42 (2) 被引量:8
标识
DOI:10.1116/6.0003408
摘要

Recently, a novel approach of depositing metallic films with chemical vapor deposition (CVD), using plasma electrons as reducing agents, has been presented and is herein referred to as e-CVD. By applying a positive substrate bias to the substrate holder, plasma electrons are drawn to the surface of the substrate, where the film growth occurs. In this work, we have characterized the electron flux at the substrate position in terms of energy and number density as well as the plasma potential and floating potential when maintaining an unbiased and a positively biased substrate. The measurements were performed using a modified radio frequency Sobolewski probe to overcome issues due to the coating of conventional electrostatic probes. The plasma was generated using a DC hollow cathode plasma discharge at various discharge powers and operated with and without precursor gas. The results show that the electron density is typically around 1016 m−3 and increases with plasma power. With a precursor, an increase in the substrate bias shows a trend of increasing electron density. The electron temperature does not change much without precursor gas and is found in the range of 0.3–1.1 eV. Introducing a precursor gas to the vacuum chamber shows an increase in the electron temperature to a range of 1–5 eV and with a trend of decreasing electron temperature as a function of discharge power. From the values of the plasma potential and the substrate bias potential, we were able to calculate the potential difference between the plasma and the substrate, giving us insight into what charge carriers are expected at the substrate under different process conditions.
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