在 CH4-H2-GeH4-N2 混合气体中生长的纳米晶钻石薄膜：结构和发光特性

IF 0.7 4区物理与天体物理 Q4 OPTICS Journal of Russian Laser Research Pub Date : 2024-08-12 DOI:10.1007/s10946-024-10222-5

Artem Martyanov, Ivan Tiazhelov, Sergey Savin, Vadim Sedov

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引用次数: 0

摘要

金刚石的化学气相沉积（CVD）可控制形成具有理想结构和元素组成的材料。本研究在 CH4-H2-GeH4-N2 混合气体中使用微波等离子体辅助化学气相沉积合成了掺杂 Ge 的微晶和纳米晶金刚石 (NCD) 薄膜。我们在气体成分[N2] = 0 - 4% 和[CH4] = 10 - 15% 变化的条件下生长出一系列 2 μm 厚的 NCD 薄膜。我们研究并比较了生长薄膜的结构、相组成和发光特性。我们记录了金刚石中硅空位（SiV，738 纳米）和锗空位（GeV，602 纳米）颜色中心的发光信号。在空气中对生长的薄膜进行额外的退火处理，以去除阻碍其发光特性的过量 sp2 相。对于 SiV 和 GeV 中心，我们找到了 CVD 生长 NCD 薄膜的条件，这些薄膜的亮度与不添加 N2 生长的掺硅和掺 Ge 的高质量微晶金刚石薄膜（MCD）相当，甚至更亮。这些结果可用于制备具有高浓度 SiV 和 GeV 中心的 NCD 薄膜和板材，这些薄膜和板材可作为制备亚微米级发光金刚石颗粒的源材料，用于局部光学测温。

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Nanocrystalline Diamond Films Grown in CH4-H2-GeH4-N2 Gas Mixtures: Structure and Luminescent Characteristics

The chemical vapor deposition (CVD) of diamond allows the controllable formation of the material with desirable structure and elemental composition. In this study, Ge-doped microcrystalline and nanocrystalline diamond (NCD) films are synthesized using microwave plasma-assisted CVD in CH₄-H₂-GeH₄-N₂ gas mixtures. We grow series of 2 μm thick NCD films with variations in gas composition [N₂] = 0 − 4% and [CH₄] = 10 − 15%. We investigate and compare the structure, phase composition, and luminescent characteristics of the grown films. The luminescent signals from Silicon vacancy (SiV, 738 nm) and Germanium vacancy (GeV, 602 nm) color centers in diamond are registered. The additional annealing of the as-grown films in air is used to remove the excessive sp² phase that hinders their luminescent properties. For both SiV and GeV centers, we find conditions for CVD growth of NCD films that are as bright or even brighter than Si-doped and Ge-doped high-quality microcrystalline diamond films (MCD) grown without N₂ additions. These results may be used for the fabrication of NCD films and plates with high concentrations of SiV and GeV centers, which may serve as source material for the fabrication of sub-micrometer-sized luminescent diamond particles for local optical thermometry.

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来源期刊

Journal of Russian Laser Research 物理-光学

CiteScore

1.50

自引率

22.20%

发文量

审稿时长

2 months

期刊介绍： The journal publishes original, high-quality articles that follow new developments in all areas of laser research, including: laser physics; laser interaction with matter; properties of laser beams; laser thermonuclear fusion; laser chemistry; quantum and nonlinear optics; optoelectronics; solid state, gas, liquid, chemical, and semiconductor lasers.