Lim Hyuna, Park Yoonsoo, Baek Namwuk, Jun So-Yeon, Lee Sungwoo, Yang Jeayoung, Jung Donggeun, Yu SeGi
Department of Physics, Sungkyunkwan University, Suwon 16419, Republic of Korea.
Advanced Research Lab., TES Co., Ltd., Yongin, 17162, Republic of Korea.
J Nanosci Nanotechnol. 2021 Aug 1;21(8):4477-4483. doi: 10.1166/jnn.2021.19417.
We have fabricated porous plasma polymerized SiCOH (ppSiCOH) films with low-dielectric constants (low-, less than 2.9), by applying dual radio frequency plasma in inductively coupled plasma chemical vapor deposition (ICP-CVD) system. We varied the power of the low radio frequency (LF) of 370 kHz from 0 to 65 W, while fixing the power of the radio frequency (RF) of 13.56 MHz. Although the ppSiCOH thin film without LF had the lowest value, its mechanical strength is not high to stand the subsequent semiconductor processing. As the power of the LF was increased, the densities of ppSiCOH films became high, accordingly high in the hardness and elastic modulus, with quite satisfactory low- value of 2.87. Especially, the ppSiCOH film, deposited at 35 W, exhibited the highest mechanical strength (hardness: 1.7 GPa, and elastic modulus: 9.7 GPa), which was explained by Fourier transform infrared spectroscopy. Since the low- material is widely used as an inter-layer dielectric insulator, good mechanical properties are required to withstand chemical mechanical polishing damage. Therefore, we suggest that plasma polymerized process based on the dual frequency can be a good candidate for the deposition of low- ppSiCOH films with enhanced mechanical strength.
我们通过在电感耦合等离子体化学气相沉积(ICP-CVD)系统中应用双射频等离子体,制备出了具有低介电常数(低至小于2.9)的多孔等离子体聚合SiCOH(ppSiCOH)薄膜。我们将370kHz的低频(LF)功率从0变化到65W,同时固定13.56MHz的射频(RF)功率。尽管没有LF的ppSiCOH薄膜具有最低的介电常数,但它的机械强度不足以承受后续的半导体加工。随着LF功率的增加,ppSiCOH薄膜的密度变高,相应地硬度和弹性模量也变高,其介电常数低至2.87,令人十分满意。特别是在35W下沉积的ppSiCOH薄膜表现出最高的机械强度(硬度:1.7GPa,弹性模量:9.7GPa),这通过傅里叶变换红外光谱得到了解释。由于低介电常数材料被广泛用作层间介电绝缘体,因此需要良好的机械性能来承受化学机械抛光损伤。所以,我们认为基于双频的等离子体聚合工艺可以成为沉积具有增强机械强度的低介电常数ppSiCOH薄膜的良好选择。
