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The Office of Naval Research's Corrosion Science and Corrosion Control Technologies program has a primary focus to create a science-based understanding of corrosion through damage evolution mechanisms, develop corrosion-informed materials concepts, and evolve surface protection and modification sciences.

Extraordinarily rugged with a melting temperature of several thousand degrees Fahrenheit. That describes the results of research into new ceramic materials sponsored by the Office of Naval Research (ONR) and recently published in the Journal Nature. A research team, led by ONR’s Principal Investigator, Dr. Stefano Curtarolo, Duke University, developed a computational method for creating new types of ceramics using transition metals – carbonitrides or borides – through a process called Disordered Enthalpy-Entropy Descriptor (DEED). The applications are endless, said Dr. Eric Wuchina, a research materials engineer who was the program officer with ONR’s Sea Warfare and Weapons department when Curtarolo’s research team was awarded the Multidisciplinary University Research Initiative (MURI). According to Wuchina, the variety of new compositions could create potentially millions of new materials.

The Office of Naval Research's Electrochemical Materials program is focused on developing a fundamental understanding of charge (electron and ion) storage, transport and transfer mechanisms, and applying that knowledge to inform the development of materials, materials architectures and devices that address Navy and Marine Corps application power and energy needs.

The Office of Naval Research's Metamaterials program supports basic research on optical and acoustic metamaterials to control light and sound propagation over a large frequency range.

The Office of Naval Research's Acoustic Transduction Materials and Devices program supports basic and applied research on materials and device technologies for Navy applications that generate, detect and suppress undersea signal for navigation, threat detection, weapons guidance, communication and the like.

The Office of Naval Research's Environmental Quality Program invests in research to enable naval vessels to carry out their mission in full compliance with current and anticipated environmental regulations.

The Office of Naval Research's Computer-Aided Materials Design (CAMD) program funds research projects in materials design.

Dielectric Films for Capacitors is an Office of Naval Research program.

The Office of Naval Research's Functional Polymeric and Organic Materials program is focused on exploring the inherent strengths/properties of organic and polymeric materials to bring new capability to the Navy.

The Office of Naval Research's Extraordinary Materials for Extreme Conditions program aims to support basic and applied research efforts to design, discover and develop novel materials/structures with unique properties (Physical, Mechanical and Chemical etc.) for extreme operating conditions through employing traditional as well as novel - synthesis routes, processing, characterization techniques and modeling/simulation tools.