Cryogenic etching of positively tapered silicon pillars with controllable profiles

Xiaoli Zhu, Aixi Pan, Babak Shokouhi, Bo Cui
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Abstract

Fabrication of high aspect ratio silicon nanopillars is challenging for various applications. A cryogenic silicon etching process using SF6 and O2 plasma is investigated to create silicon nanopillars with 10 μm height and tens of nanometers apex. In the process, fluorine radicals react with silicon atoms, releasing volatile SiFx byproducts and then oxygen atoms interact with SiFx and deposit a SiOxFy film acting as an inhibitor. By adjusting the O2 concentration and the forward radio frequency power, this process modifies the formation of the SiOxFy passivation film and adjusts the bombardment of ions onto the inhibitor, resulting in the desired positive taper angles of silicon pillars. Two etching steps, with higher and lower O2 concentrations, are consecutively combined to create a sharp apex and a wide base. The results demonstrate the high etching rate and controllability of cryogenic etching to obtain high aspect ratio silicon pillars with desired profiles.
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低温蚀刻具有可控轮廓的正锥形硅柱
在各种应用中,制造高纵横比硅纳米柱是一项挑战。我们研究了一种使用 SF6 和 O2 等离子体的低温硅蚀刻工艺,以制造出高度为 10 μm、顶点为数十纳米的硅纳米柱。在此过程中,氟自由基与硅原子发生反应,释放出挥发性 SiFx 副产物,然后氧原子与 SiFx 相互作用,沉积出一层 SiOxFy 膜,起到抑制作用。通过调整氧气浓度和正向射频功率,该过程可改变 SiOxFy 钝化膜的形成,并调整离子对抑制剂的轰击,从而获得所需的正锥角硅柱。高浓度和低浓度 O2 的两个蚀刻步骤连续进行,以形成尖锐的顶点和宽阔的底面。结果表明,低温蚀刻具有蚀刻率高和可控性强的特点,可获得具有所需轮廓的高纵横比硅柱。
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