Partner with us for advanced materials development, specifically for your application. We combine our intellectual property and technical expertise to develop a coating that suits your application’s needs. We create a custom coatings solution to meet your requirements through a structured approach involving specified milestones. We will work with you from initial R&D all the way through large scale manufacturing. Your intellectual property rights are fully protected at all times.
Describe your materials needs to us by completing a Request Form and a representative will get back to you immediately.
We provide advanced materials development services based on our experience with several coating technologies. Contact Us for more detailed information on any of our technologies, or send us a Materials Development Inquiry through our Quote Request Form.
NEI’s superhydrophobic surface treatment imparts superhydrophobicity to surfaces, particularly at above ambient temperatures. In one particular application, the superhydrophobic surface treatment increases condenser efficiency by facilitating drop-wise condensation as opposed to film-wise condensation.
NEI has developed a generic self-healing technology that allows polymer coatings to “self-heal” if scratched or cracked. To date, we have demonstrated self-healing in polyurethane-based coatings. We are implementing our technology in various polymer materials for specific commercial applications.
NEI has developed chromate-free, anti-corrosion coating systems for aluminum, steel, and magnesium. These environmentally friendly coatings include pretreatments, primers, and topcoats and are based on nanoscale materials. These coatings can be custom tailored to provide advantages for specific applications.
NEI has developed transparent coatings for polymer substrates that offer exceptional hardness and scratch resistance. Our environmentally benign coating solutions are waterborne. The composition of the coating can be tailored to suit specific application requirements.
NEI’s additives for fluoropolymer fabric coatings and silicone fabric coatings resist unwanted permeation of gas through fabric, protect base fabric from environmental degradation, and provide chemical and environmental stability.