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Crosslinking of VDF-containing copolymer by thiol ene systems

Crosslinking on baking methyl methacrylate copolymer resist see

Crosslinking polymers using epoxy-amine-cured reactions.

Crosslinking process via electrophilic aromatic substitution.

Crosslinking reaction between poly activated by N-hydroxysuccinimide and gelatin.

Crosslinking reaction for sugar-beet pectins .

Crosslinking reaction of a two-part moisture cure silicone adhesive system.

Crosslinking reaction of acrylcysteamine .

Crosslinking reaction of nadic end-capped imides.

Crosslinking reaction of styrene with fumarate group in an unsaturated polyester resin. After Bracco et al. .

Crosslinking reaction via unsaturation in the side chain.

Crosslinking reactions between the internal unsaturated groups of PIB via sulfur

Crosslinking reactions in bisarylazide-rubber resists.

Crosslinking reactions in bisarylazide-rubber resists. The primary photoevent is production of a nitrene which then undergoes a variety of reactions that result in covalent, polymer-polymer linkages. A schematic representation of crosslinking via nitrene insertion to form aziridine linkages is shown together with several other reaction modes available to the

Crosslinking reactions in polyethylene

Crosslinking reactions of carboxylated waterborne polyurethane dispersions.

Crosslinking siloxanes by the coupling of Si-H and Si-CH CH2 groups

Crosslinking step of silane-grafted HFFR compound.

Crosslinking structures and photographs of the permanent and temporary shapes of the polymeric stent. The shape-switching process is reversible and controlled by hydration or dehydration of the crosslinked stent. From reproduced by permission of the American Chemical Society

Crosslinking through an anhydride

Crosslinking to inhibit protease keratinolytic reduction

Crosslinking via a non-polymeric

Crosslinking via Ionic Bonds.

Crosslinking was predominant in EPDM-2 throughout the period of irradiation.

Crossover



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