光波导用掺杂NaYF4纳米晶体的氟化聚酰亚胺的合成与表征

IF 2.1 4区 材料科学 Q2 MATERIALS SCIENCE, CHARACTERIZATION & TESTING
Liping Peng, Wei Xie, Sha Gong, Fuyun Hu
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引用次数: 0

摘要

氟化聚酰亚胺材料因其特殊的灵活性,高热稳定性和最小的吸收损失而被选择。这些材料随后被用于使用光刻技术生产单模聚合物光波导器件。在本研究中,制备了一种掺有nayf4纳米晶体的氟化聚酰亚胺材料,并证实其在1550 nm附近具有较低的吸收损耗,在共同通信窗口内。掺加nayf4可精确调节含氟聚酰亚胺薄膜的折射率,掺杂和未掺杂的折射率可调节范围分别为1.95%和1.72%。其次,利用掺氟聚酰亚胺纳米晶材料,通过蚀刻底层包层,以氮化硅为掩模,制备了c波段(1550 nm附近)光互连的三层单模聚合物光波导器件。该器件具有优异的传输性能,总波导耦合,传输损耗为1.502 dBm。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis and characterization of fluorinated polyimide doped with NaYF4 nanocrystals for optical waveguide applications
Fluorinated polyimide materials were selected for their exceptional flexibility, high thermal stability, and minimal absorption loss. These materials were subsequently employed in the production of single-mode polymer optical waveguide devices using photolithography. In this study, a fluorinated polyimide material doped with NaYF 4 nanocrystals was prepared and confirmed to exhibit low absorption loss near 1550 nm, which is within the common communication window. The refractive index of the fluorinated polyimide films was precisely adjusted by the NaYF 4 doping, the adjustable ranges for the refractive index were 1.95% and 1.72% for doped and undoped, respectively. Secondly, utilizing the NaYF 4 nanocrystals doped-fluorinated polyimide materials, a three-layer single-mode polymer optical waveguide device for C-band (near 1550 nm) optical interconnection was fabricated by etching the underlying cladding and employing silicon nitride as a mask. The transmission performance of the device was excellent, with a total waveguide coupling and transmission loss of 1.502 dBm.
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来源期刊
Polymers & Polymer Composites
Polymers & Polymer Composites 工程技术-材料科学:表征与测试
CiteScore
4.30
自引率
9.50%
发文量
90
审稿时长
5.7 months
期刊介绍: Polymers & Polymer Composites provides a forum for the publication of expertly peer reviewed, international research into the following topics: - Fibre reinforced and particulate filled plastics - Engineering plastics - Nanocomposites - Polymers or polyblends intended for engineering use (including structural, load bearing electronic and electrical applications) - Fibre reinforced and particulate filled plastics - Structural adhesives - Textile & wood fibres - Biomaterials with a load bearing capacity, (including polymer based dental materials)
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