Catalytic Effect of Potassium Xanthates and Related Compounds on Disulfide Bond Enrichment of Polyalkylene Sulfides Synthesized in the Course of Episulfide Polymerization

IF 2.8 2区 化学 Q3 CHEMISTRY, PHYSICAL The Journal of Physical Chemistry B Pub Date : 2024-11-03 DOI:10.1021/acs.jpcb.4c0547410.1021/acs.jpcb.4c05474
Mikhail Rumyantsev*, Ivan Yu Kalagaev and Sergey Rumyantsev, 
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Abstract

The original method for the preparation of high-molecular-weight polyalkylene sulfides was reported. Assuming anomalous peculiarities of the reaction (high polymerization rates, high degrees of polymerization, and huge discrepancy between the expected Mn values and the experimentally obtained values), the priority task was set to study the mechanism underlying the observed new type of polymerization. Thus, it was demonstrated that xanthate and related molecules could act as pure catalysts, facilitating both the chain-growth polymerization (ring-opening of episulfides) realized via an anionic route and the direct attack of the sulfur atom of one episulfide molecule on the methylene carbon atom of the second (neighbor) episulfide molecule, accompanied by the subsequent formation of a stable thiiranium-based zwitterionic adduct. The role of xanthate and related compounds as catalysts and stabilizing particles was further supplemented by modeling the attack of thiolate on the sulfur atom of a thiiranium-based adduct. The xanthate molecule acting as a catalyst was found to be involved in all stages of the process discussed by sharing the potassium atom with the sulfur atoms of active components of the system (the initial episulfide molecule, thiolate, and the zwitterionic intermediate). The subsequent analysis revealed the exceptional transparency of the materials obtained, which was found to exceed 99%. The pronounced self-healing ability was also found to be a distinctive feature of the synthesized high-molecular-weight polyalkylene sulfides enriched with disulfide bonds.

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黄原酸钾和相关化合物对环氧硫化物聚合过程中合成的聚亚烷基硫化物二硫键富集的催化作用
报告了制备高分子量聚亚烷基硫化物的原始方法。假定该反应具有反常的特殊性(高聚合速率、高聚合度以及预期 Mn 值与实验所得值之间的巨大差异),研究观察到的新型聚合反应的内在机理就成了当务之急。研究结果表明,黄原酸盐和相关分子可作为纯催化剂,通过阴离子途径促进链增长聚合(环硫化物开环),以及一个环硫化物分子的硫原子直接攻击第二个(相邻)环硫化物分子的亚甲基碳原子,随后形成稳定的噻鎓基齐聚离子加合物。通过模拟硫酸根对硫钛基加合物硫原子的攻击,进一步补充了黄原酸盐和相关化合物作为催化剂和稳定粒子的作用。研究发现,作为催化剂的黄原酸盐分子通过与系统中的活性成分(初始环硫化物分子、硫代硫酸盐和齐聚物中间体)的硫原子共享钾原子,参与了所讨论过程的各个阶段。随后的分析表明,所获得材料的透明度非常高,超过了 99%。合成的富含二硫键的高分子量聚亚烷基硫化物还具有明显的自愈能力。
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来源期刊
CiteScore
5.80
自引率
9.10%
发文量
965
审稿时长
1.6 months
期刊介绍: An essential criterion for acceptance of research articles in the journal is that they provide new physical insight. Please refer to the New Physical Insights virtual issue on what constitutes new physical insight. Manuscripts that are essentially reporting data or applications of data are, in general, not suitable for publication in JPC B.
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