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

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 rheologic… Show more

“…To control penetration in PDMS coatings, methods have been developed using crosslinking to limit PDMS chain flexibility and mobility ,− or using coatings to form additional protective films to prevent access to the PDMS layer. − However, these methods cannot guarantee that all flexible segments are fixed in the cross-linked networks. The coatings may also require complicated processes for additional protective layers, including vapor deposition, plasma oxidation, and further surface reactions.…”

Controlling Anti-Penetration Performance by Post-Grafting of Fluorinated Alkyl Chains onto Polystyrene-block-poly(vinyl methyl siloxane)

“…To control penetration in PDMS coatings, methods have been developed using crosslinking to limit PDMS chain flexibility and mobility ,− or using coatings to form additional protective films to prevent access to the PDMS layer. − However, these methods cannot guarantee that all flexible segments are fixed in the cross-linked networks. The coatings may also require complicated processes for additional protective layers, including vapor deposition, plasma oxidation, and further surface reactions.…”

Controlling Anti-Penetration Performance by Post-Grafting of Fluorinated Alkyl Chains onto Polystyrene-block-poly(vinyl methyl siloxane)