由具有超低介电常数的强韧二维聚合物制成的高性能二维电子器件。

High-performance 2D electronic devices enabled by strong and tough two-dimensional polymer with ultra-low dielectric constant.

作者信息

Fang Qiyi, Yi Kongyang, Zhai Tianshu, Luo Shisong, Lin Chen-Yang, Ai Qing, Zhu Yifan, Zhang Boyu, Alvarez Gustavo A, Shao Yanjie, Zhou Haolei, Gao Guanhui, Liu Yifeng, Xu Rui, Zhang Xiang, Wang Yuzhe, Tian Xiaoyin, Zhang Honghu, Han Yimo, Zhu Hanyu, Zhao Yuji, Tian Zhiting, Zhong Yu, Liu Zheng, Lou Jun

机构信息

Department of Materials Science and NanoEngineering and the Rice Advanced Materials Institute, Rice University, Houston, TX, 77005, USA.

Department of Materials Science and Engineering, Cornell University, Ithaca, NY, 14853, USA.

出版信息

Nat Commun. 2024 Dec 30;15(1):10780. doi: 10.1038/s41467-024-53935-6.

DOI:10.1038/s41467-024-53935-6

PMID:39737907

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11685926/

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 field-effect-transistors when utilizing 2DP-F thin films as dielectric substrates.

摘要

随着微电子电路的特征尺寸缩小至纳米量级，日益增加的互连串扰、电阻电容（RC）延迟和功耗会限制芯片性能及可靠性。为应对这些挑战，需要开发新型低介电常数（k < 2）材料来替代当前的二氧化硅（k = 3.9）或SiCOH等。然而，现有的低介电常数材料，如有机硅酸盐玻璃或聚合物电介质，存在热性能和机械性能较差的问题。二维聚合物（2DPs）因其良好的热性能和机械性能、高孔隙率及可设计性，被认为是很有前景的低介电常数材料。在此，我们报道一种在任意衬底上生长富含氟的2DP-F薄膜的化学气相沉积（CVD）方法。我们表明，所生长的2DP-F薄膜表现出超低介电常数（面内k = 1.85，面外k = 1.82）和卓越的机械性能（杨氏模量> 15 GPa）。我们还展示了在将2DP-F薄膜用作介电衬底时，单层MoS场效应晶体管性能的提升。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f97b/11685926/df947578b4c3/41467_2024_53935_Fig1_HTML.jpg

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由具有超低介电常数的强韧二维聚合物制成的高性能二维电子器件。

High-performance 2D electronic devices enabled by strong and tough two-dimensional polymer with ultra-low dielectric constant.

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