通过控制反应过程中氧气和水分的存在,探索桐油的反硫化机理

Yanchen Lyu, Qin Su
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引用次数: 0

摘要

反硫化法是将单质硫与有机单体相结合,制备高含硫共聚物的一种经济有效的方法,因其合成简单、应用广泛而迅速得到普及。虽然已经用不同的单体在不同的反应速率和温度下合成了许多富硫共聚物的例子,但确切的反应机理仍不清楚。本文以含共轭三烯的桐油为单体,在6种不同的反应条件下合成了富硫共聚物,并考察了氧和水分对其合成的影响。通过DSC、XRD、1H NMR和XPS表征,我们发现氧气加快了反应速度,降低了产物的游离硫含量,而水分缩短了凝胶时间,增加了产物的游离硫含量。这些发现证实了反硫化过程中同时存在自由基机制和阴离子机制。关于自由基的机理,我们讨论了自由基的来源、容易性和反应性,并表明自由基的产生取决于第二个单体而不是硫。桐油在反应中不仅起到共聚体的作用,而且起到起始作用,促进硫链解离生成自由基,形成非共轭双键。一旦受到某些因素的刺激,如金属离子和硫化物离子的存在,阴离子机制的作用就超过了自由基机制的作用。了解反硫化过程的详细机理对于选择最佳单体至关重要,这不仅可以提高合成工艺,还可以提高富硫材料的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The exploration of the inverse vulcanization mechanism of tung oil by controlling the oxygen and moisture presence during reactions
Inverse vulcanization is a cost-effective method for producing high sulfur-content copolymers by combining elemental sulfur with organic monomers, which has rapidly gained popularity due to its simplicity of synthesis and wide range of applications. Although numerous examples of sulfur-rich copolymers have been synthesized at different reaction rates and temperatures using various monomers, the precise reaction mechanism remains unclear. In this paper, we used tung oil containing conjugated triene as a monomer to synthesize sulfur-rich copolymers under six different reaction conditions and investigate the effects of oxygen and moisture. Our study, which employed DSC, XRD, 1H NMR, and XPS characterization methods, revealed that oxygen accelerated the reaction rate and decreased the free sulfur content of the products, while moisture shortened the gel times but increased the free sulfur content. These findings confirm that reverse vulcanization involves two simultaneous mechanisms: the free radical mechanism and the anion mechanism. With regard to the radical mechanism, we discuss the source, ease, and reactivity of radicals and show that the creation of radicals depends on the second monomer rather than sulfur. Tung oil not only acts as a comonomer in the reaction but also plays an initiating role in promoting the dissociation of sulfur chains to generate free radicals for addition of non-conjugated double bonds. The effect of the anion mechanism exceeds that of the radical mechanism once certain factors are stimulated, such as the presence of metal ions and sulfide ions. Understanding the detailed mechanisms involved in inverse vulcanization is essential for selecting optimal monomers, which can enhance not only the synthesis process but also the properties of sulfur-rich materials.
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