Energy Research Unit, Indian Association for the Cultivation of Science, Jadavpur, Kolkata, India.
Nanotechnology. 2011 Feb 4;22(5):055601. doi: 10.1088/0957-4484/22/5/055601. Epub 2010 Dec 22.
Quantum confinement in zero-dimensional silicon nanocrystals (nC) in the quantum dot (QD) configuration has triggered a tremendous interest in nanostructured device technology. However, the formation of Si-QDs eventually proceeds through multi-step routes and involves high temperature processing that impedes preferred device configuration. The present work demonstrates the formation of nC-Si QDs of controlled size, density and distribution through one-step and spontaneous plasma processing, at a low substrate temperature (300 °C) compatible for device fabrication. Direct growth of nC-Si/SiO(x) core/shell quantum dots embedded in the a-Si matrix, 6.4-3.7 nm in diameter and with number density in the range ∼ 6 × 10(9)-1 × 10(11) cm(-2) has been accomplished, following a novel route where He dilution to SiH(4) in RF plasma CVD has been found instrumental. On gradual reduction in the size of QDs, splitting of the energy bands widens the optical band gap and induces visible photoluminescence that appears controllable by tuning the size and density of the dots. This low temperature and spontaneous plasma processing of nC-Si/SiO(x) core/shell QDs that exhibit the quantum size effect in photoluminescence is being reported for the first time.
零维硅纳米晶体(nC)在量子点(QD)结构中的量子限制激发了人们对纳米结构器件技术的极大兴趣。然而,Si-QDs 的形成最终通过多步途径进行,并涉及高温处理,这阻碍了首选器件结构的形成。本工作通过一步和自发等离子体处理,在 300°C 的低温下(兼容器件制造),展示了具有可控尺寸、密度和分布的 nC-Si QDs 的形成。通过在 RF 等离子体 CVD 中向 SiH(4) 中稀释 He 的新途径,实现了直接生长直径为 6.4-3.7nm 且数密度在 ∼ 6×10(9)-1×10(11)cm(-2)范围内的嵌入非晶硅基质中的 nC-Si/SiO(x) 核/壳量子点。随着 QD 尺寸的逐渐减小,能带分裂会加宽光学带隙,并诱导可见光致发光,这可以通过调整点的尺寸和密度来控制。这种在低温下通过自发等离子体处理 nC-Si/SiO(x) 核/壳量子点的方法,首次报道了其在光致发光中表现出量子尺寸效应。
