Influence of Concentration of Thiol-Substituted Poly(dimethylsiloxane)s on the Properties, Phases, and Swelling Behaviors of Their Crosslinked Disulfides

Macromol Pub Date : 2023-01-28 DOI:10.3390/macromol3010004
Danielle M. Beaupre, A. Goroncy, R. Weiss
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Abstract

A simple, efficient procedure has been employed to effect intra- and inter-chain crosslinking of two commercially available thiolated poly(dimethylsiloxane) copolymers (T-PDMS) with 4–6% or 13–17% of mercaptopropyl side-chains. The thiol functional groups were converted to disulfides (D-PDMS) in chloroform solutions of I2. Importantly, the conditions employed avoid over-oxidation to other types of sulfur-containing species, and the concentration of T-PDMS during the crosslinking reaction dictated the rheological properties and liquid or solid nature of the D-PDMS. The procedure for obtaining the crosslinked copolymers is simpler than other approaches in the literature used to crosslink polysiloxane backbones and to modulate their properties. By changing the concentration of T-PDMS during the treatment with I2, the degree of intra- and inter-chain crosslinking can be controlled (as assessed qualitatively by the solid or liquid nature of the products and their viscoelastic properties). For each of the T-PDMS materials, there is a concentration threshold, above which products are solids, and below which they are oils. Liquid and solid materials were characterized using 1H and 13C solution-state and 13C solid-state NMR spectroscopy, respectively. They indicate greater than 90% conversion of thiols to disulfides in the presence of excess I2. The rheological behavior of the liquid products, solvent swelling ability of solid products, and the thermal stability of the reactants and products are described. Furthermore, the solid products exhibit some of the highest swelling values reported in the literature for poly(dimethylsiloxane) (PDMS) materials. As assessed by thermal gravimetric analyses, the disulfide-crosslinked materials are more stable thermally than the corresponding thiols.
巯基取代聚二甲基硅氧烷浓度对交联二硫化物性质、物相及溶胀行为的影响
采用一种简单、高效的方法对两种含4-6%或13-17%巯基侧链的巯基化聚二甲基硅氧烷共聚物(T-PDMS)进行了链内交联和链间交联。硫醇官能团在氯仿I2溶液中转化为二硫化物(D-PDMS)。重要的是,所采用的条件避免了对其他类型的含硫物质的过度氧化,并且在交联反应中T-PDMS的浓度决定了D-PDMS的流变性能和液体或固体性质。获得交联共聚物的程序比文献中用于交联聚硅氧烷骨架和调节其性能的其他方法更简单。在I2处理过程中,通过改变T-PDMS的浓度,可以控制链内和链间交联的程度(通过产品的固体或液体性质及其粘弹性定性评估)。对于每种T-PDMS材料,都有一个浓度阈值,高于该值的产品为固体,低于该值的产品为油。液体和固体材料分别用1H和13C溶液态和13C固态核磁共振谱进行表征。它们表明在过量I2存在的情况下,硫醇转化为二硫化物的比例大于90%。描述了液体产物的流变性能、固体产物的溶胀能力以及反应物和产物的热稳定性。此外,固体产物表现出一些文献中报道的聚二甲基硅氧烷(PDMS)材料的最高膨胀值。热重分析表明,二硫交联材料比相应的硫醇具有更大的热稳定性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
5.20
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