Synthesis of phosphine sulfide group-containing aromatic poly(ether)s with aliphatic substituents on the phosphorus atoms and low dielectric properties

IF 2.3 4区 化学 Q3 POLYMER SCIENCE Polymer Journal Pub Date : 2024-08-08 DOI:10.1038/s41428-024-00940-7
Ryoyu Hifumi, Kotaro Ochiai, Ikuyoshi Tomita
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Abstract

Recently, materials with low dielectric properties have attracted particular attention because low dielectric properties are key factors in realizing next-generation communication devices with high-speed and low-loss signal transmission and processing and electronic components with high electrical breakdown voltages. In this study, phosphine sulfide (P=S) group-containing aromatic poly(ether)s with aliphatic substituents on the phosphorus atoms were developed for use as low dielectric materials, taking advantage of the low polarity of the P=S groups and the less polarizable nature of the aliphatic moieties. These polymers have moderate to high molecular weights (number-average molecular weights of 8900–35,000 and weight-average molecular weights of 31,900–178,000), good thermal stability (5% weight loss temperatures of 363–423 °C), and high glass transition temperatures (Tg = 210–219 °C). In addition, some of the polymers exhibited low dielectric constants (ε = 2.64–2.68 at 10 GHz and 2.56–2.59 at 20 GHz) and low dielectric dissipation factors (tanδ = 0.0034–0.0035 at 10 GHz and 0.0036–0.0037 at 20 GHz). These results may indicate that P=S group-containing aromatic poly(ether)s with high aliphatic contents are potentially applicable to electrically insulating materials with good dielectric properties in the GHz frequency range and could contribute to high-performance electronic devices. Phosphine sulfide (P=S) group-containing aromatic poly(ether)s with aliphatic substituents on the phosphorus atoms were developed for use as low dielectric materials, taking advantage of the low polarity of the P=S groups and the less polarizable nature of the aliphatic moieties. These polymers exhibited low dielectric constants (ε = 2.64–2.68 at 10 GHz and 2.56–2.59 at 20 GHz) and low dielectric dissipation factors (tanδ = 0.0034–0.0035 at 10 GHz and 0.0036–0.0037 at 20 GHz).

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合成含硫化膦基团的芳香族聚(醚),磷原子上具有脂肪族取代基并具有低介电性能
最近,具有低介电特性的材料引起了人们的特别关注,因为低介电特性是实现具有高速、低损耗信号传输和处理功能的下一代通信设备以及具有高击穿电压的电子元件的关键因素。本研究开发了含硫化膦(P=S)基团的芳香族聚(醚),磷原子上带有脂肪族取代基,利用 P=S 基团的低极性和脂肪族分子的低极性,将其用作低介电材料。这些聚合物具有中等到较高的分子量(数均分子量为 8900-35,000 和重均分子量为 31,900-178,000 )、良好的热稳定性(5% 失重温度为 363-423 ℃)和较高的玻璃化转变温度(Tg = 210-219 ℃)。此外,一些聚合物的介电常数较低(10 GHz 时为 ε = 2.64-2.68,20 GHz 时为 2.56-2.59),介电损耗因子较低(10 GHz 时为 tanδ = 0.0034-0.0035,20 GHz 时为 0.0036-0.0037)。这些结果可能表明,脂肪族含量高的含 P=S 基团的芳香族聚(醚)有可能成为在 GHz 频率范围内具有良好介电性能的电绝缘材料,并能为高性能电子设备做出贡献。利用硫化膦(P=S)基团的低极性和脂肪族分子的低极性,开发出了在磷原子上具有脂肪族取代基的含硫化膦(P=S)基团的芳香族聚(醚),可用作低介电材料。这些聚合物表现出低介电常数(ε = 2.64-2.68,10 GHz 和 2.56-2.59,20 GHz)和低介质损耗因子(tanδ = 0.0034-0.0035,10 GHz 和 0.0036-0.0037,20 GHz)。
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来源期刊
Polymer Journal
Polymer Journal 化学-高分子科学
CiteScore
5.60
自引率
7.10%
发文量
131
审稿时长
2.5 months
期刊介绍: Polymer Journal promotes research from all aspects of polymer science from anywhere in the world and aims to provide an integrated platform for scientific communication that assists the advancement of polymer science and related fields. The journal publishes Original Articles, Notes, Short Communications and Reviews. Subject areas and topics of particular interest within the journal''s scope include, but are not limited to, those listed below: Polymer synthesis and reactions Polymer structures Physical properties of polymers Polymer surface and interfaces Functional polymers Supramolecular polymers Self-assembled materials Biopolymers and bio-related polymer materials Polymer engineering.
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