电介质
材料科学
常量(计算机编程)
聚合物
高-κ电介质
光电子学
纳米技术
凝聚态物理
工程物理
复合材料
计算机科学
物理
程序设计语言
作者
Qiyi Fang,Kongyang Yi,Tianshu Zhai,Shisong Luo,Chen-yang Lin,Qing Ai,Yifan Zhu,Boyu Zhang,Gustavo A. Alvarez,Yanjie Shao,Haolei Zhou,Guanhui Gao,Yifeng Liu,Rui Xu,Xiang Zhang,Y. P. Wang,Xiaoyin Tian,Honghu Zhang,Yimo Han,Hanyu Zhu
标识
DOI:10.1038/s41467-024-53935-6
摘要
Abstract As the feature size of microelectronic circuits is scaling down to nanometer order, the increasing interconnect crosstalk, resistance-capacitance (RC) delay and power consumption can limit the chip performance and reliability. To address these challenges, new low- k dielectric ( k < 2) materials need to be developed to replace current silicon dioxide ( k = 3.9) or SiCOH, etc. However, existing low- k dielectric materials, such as organosilicate glass or polymeric dielectrics, suffer from poor thermal and mechanical properties. Two-dimensional polymers (2DPs) are considered promising low- k dielectric materials because of their good thermal and mechanical properties, high porosity and designability. Here, we report a chemical-vapor-deposition (CVD) method for growing fluoride rich 2DP-F films on arbitrary substrates. We show that the grown 2DP-F thin films exhibit ultra-low dielectric constant (in plane k = 1.85 and out-of-plane k = 1.82) and remarkable mechanical properties (Young’s modulus > 15 GPa). We also demonstrated the improved performance of monolayer MoS 2 field-effect-transistors when utilizing 2DP-F thin films as dielectric substrates.
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