2017
DOI: 10.1021/acs.macromol.6b02335
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Insights into the Vulcanization Mechanism through a Simple and Facile Approach to the Sulfur Cleavage Behavior

Abstract: The vulcanization mechanism remains unclear due to the difficulty of characterization and the complexity of the vulcanization systems. In this work, a series of epoxy model systems were used to study the sulfur cleavage behavior, from which the study process of the vulcanization mechanism was significantly simplified and a brand new sulfur-only vulcanization mechanism was revealed by the FTIR and DSC analysis. Our studies suggest that thiyl radicals derived from the homolytic cleavage of sulfur play the domina… Show more

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Cited by 53 publications
(53 citation statements)
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“…The starting temperature of homolytic fission for S 8 has not been agreed, with reports ranging from 140 to 181 o C 49,5356 . That catalysts allow temperatures below this range to be used may therefore make a crucial difference to the nature of the reaction.…”
Section: Resultsmentioning
confidence: 85%
See 1 more Smart Citation
“…The starting temperature of homolytic fission for S 8 has not been agreed, with reports ranging from 140 to 181 o C 49,5356 . That catalysts allow temperatures below this range to be used may therefore make a crucial difference to the nature of the reaction.…”
Section: Resultsmentioning
confidence: 85%
“…Despite a long history of use, the mechanism of even uncatalyzed conventional vulcanization is not fully understood, and remains complex, difficult to characterize, and controversial 42 . Conventional vulcanization has been ascribed to either radical or ionic pathways according to homolytic, or heterolytic fission of S 8 rings (supplementary figure 43) 39,42,48 , and even recently as initially radical, with ionic species generated after reaction of sulfur with organic species 49 . That said, the most widely agreed pathway for conventional vulcanization is via hydrogen abstraction of the α-position relative to the double bond, leading to a combination of crosslinking by proton substitution and addition across the double bonds, with substitutions of hydrogen for sulfur being the dominant factor (Fig.…”
Section: Resultsmentioning
confidence: 99%
“…Additionally, sulfur has a melt peak at 118.7 C. The higher sulfur content PAOS x (x ¼ 60-99) exhibit endothermic features at $106 C. The feature at $106 C in DSC analysis is attributable to an orthorhombic to monoclinic phase change (T a-b , for the a-S(s) / b-S(s) process). [45][46][47] Older literature has variably attributed this transition to occurring at 95 C, [48][49][50][51] possibly confused by the signicant variability in properties of sulfur based on its thermal history and complex phase behavior 36,49,[52][53][54][55] The peak at $115 C is attributed to the melt peak of sulfur-rich domains in the materials. The normalized integral of the sulfur melt peak decreases predictably as the wt% of sulfur is decreased (Fig.…”
Section: Morphologymentioning
confidence: 99%
“…Double bonds and epoxy groups can be almost 100% converted in the epoxy/allyl compound/sulfur system during dual-curing. 50,51 Inspired by this idea, a dualsulfur-fixing mechanism of epoxy/allyl compound/sulfur system was applied in Li−S batteries to effectively reduce the irreversible loss of active materials. In the current work, we proposed for poly(sulfur-random-4-vinyl-1,2-epoxycyclohexane) (SVE) copolymers as powerful cathode materials.…”
Section: Introductionmentioning
confidence: 99%