Hydrogels & Organogels: high fluid content coatings that form an interface between the skin and sensing element in device-assisted transdermal drug delivery and medical applications such as wound and burn care.

Hybrid PSAs: rubber/acrylic graft polymer matrix that offers both high tack and chemical stability.

Molecularly Imprinted Polymers (MIPs): synthetic polymers for the capture and release of target active pharmaceutical ingredients or other chemical moieties.

Tight Thickness Tolerance Adhesives: low cold flow, chemically inert, pressure-sensitive adhesives and heat-seal systems manufactured using state-of-the-art coating lines to produce and maintain tight thickness control.

Skin-Friendly PSAs: acrylic, polyisobutylene, silicone and hybrid chemistries tailored to bond in various dermatological environments for wear times ranging from minutes to weeks.

Electrically & Ionically Conductive Coatings: polymer formulations that overcome traditional insulative properties of an adhesive to allow current or ion transport.

Dissolvable Films & Erodable PSAs: polymer coatings designed to erode/dissolve at pre-determined rates when in contact with saliva, blood, urine or other biological fluids.

Ethanol- & Enhancer-Tolerant Coatings: systems that maintain their pressure-sensitive properties when exposed to various chemistries encountered in transdermal and other drug delivery platforms.

Ultra-Clean & Non-Reactive Adhesives: chemically inert coatings compatible with active pharmaceutical ingredients or drug delivery excipients.

Porous Adhesives: coated polymer systems with tailored thickness and pore size/density to allow controlled fluid transfer or doping to create biphasic formulations.

Heat-Seal Coatings: high T_g (glass transition temperature) coatings can create a permanent bond between device components or patch layers minimizing gumming during die-cutting and assembly processes.