Maximilian Mann scite author profile

Inverse vulcanization provides dynamic and responsive materials made from elemental sulfur and unsaturated cross-linkers. These polymers have been used in av ariety of applicationss uch as energy storage, infrared optics, repairable materials, environmental remediation, and precision fertilizers. In spite of thesea dvances, there is an eed for methods to recycle and reprocess these polymers. In this study,p olymers prepared by inverse vulcanization are shown to undergo reactive compression molding. In this process, the reactive interfaces of sulfur polymers are brought into contact by mechanicalc ompression.U pon heating these molds at relatively low temperatures (% 100 8C), chemical bonding occurs at the polymer interfaces by SÀSm etathesis. This method of processing is distinct from previouss tudies on inverse vulcanization because the polymers examined in this study do not form al iquid phase when heated. Neither compression nor heatinga lone was sufficient to mold these polymers into new architectures, so this is an ew concept in the manipulation of sulfur polymers. Additionally,h igh-level ab initio calculations revealed that the weakest SÀSb ond in organic polysulfides decreases linearly in strength from as ulfur rank of 2t o4 ,b ut then remains constant at about 100kJmol À1 for highers ulfur rank. This is criticali nformation in engineering these polymers for SÀSm etathesis. Guidedb yt his insight, polymer repair,r ecycling, and repurposingi nto new composites was demonstrated.

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Polymers Made by Inverse Vulcanization for Use as Mercury Sorbents

Chalker

Mann

Worthington

et al. 2021

Organic Materials

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Inverse vulcanization is a process in which highly abundant and low-cost elemental sulfur is copolymerized with an unsaturated organic molecule such as a polyene. This process has provided a variety of useful materials with high sulfur content—typically 50% or greater in sulfur by mass. These materials have garnered increasing interest in as sorbents for mercury, due to the high affinity of sulfur for mercury. In this review, the features of mercury sorbents made by inverse vulcanization are presented. Additionally, case studies are provided to illustrate the variety of polymer architectures accessible with this chemistry, the versatility of these materials in mercury remediation, and prospects for industrial use.

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Processes for coating surfaces with a copolymer made from sulfur and dicyclopentadiene

et al. 2022

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Chemically Activated SS Metathesis for Adhesive‐Free Bonding of Polysulfide Surfaces

Mann

Pauling

Tonkin

et al. 2021

Macro Chemistry & Physics

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A polysulfide terpolymer made from canola oil, dicyclopentadiene, and elemental sulfur is synthesized and evaluated as bulk structural material. The unique polysulfide structure in this material allows the two polymer blocks to be bonded together through amine-catalyzed S-S metathesis. No exogenous adhesive is required: the polysulfide is both the bulk material and the mortar. The strength of the joined polymers is evaluated by a series of shear tests and compared to the bond strength obtained with commercially available superglue. The adhesion obtained via the S-S metathesis is stronger in all tests. To improve the mechanical properties of the terpolymer, carbon nanorods and carbon fibers are embedded in the polymer, with the latter leading to nearly a 16-fold increase in flexural strength. Prospects in sustainable construction are discussed.

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Maximilian Mann

Sulfur polymer composites as controlled-release fertilisers

Reactive Compression Molding Post‐Inverse Vulcanization: A Method to Assemble, Recycle, and Repurpose Sulfur Polymers and Composites

Polymers Made by Inverse Vulcanization for Use as Mercury Sorbents

Processes for coating surfaces with a copolymer made from sulfur and dicyclopentadiene

Chemically Activated SS Metathesis for Adhesive‐Free Bonding of Polysulfide Surfaces

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