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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.

Non-Destructive Evaluation and Prognostics is a two-tiered research area within the Office of Naval Research's Sea Warfare and Weapons Department.

The Organic Photovoltaics program is part of the Office of Naval Research's Sea Warfare and Weapons Department.

The Office of Naval Research's Polymer Matrix Composites (PMC) program has invested significantly in developing new structural fibers with better thermo-oxidative resistance, new non-toxic resins systems and sandwich cores with enhanced resistance to fire and its propagation, new additives to improve PMC inter-laminar properties, and new resin infusion models and processing tools for improving product quality and lowering manufacturing costs.

The Office of Naval Research's Propulsion Materials program involves, in part, the kinetics and thermodynamics of materials interactions and materials stability under marine operating environments and temperatures.

The Office of Naval Research's Structural Metals program emphasizes developing the fundamental understanding needed to discover, design, and produce high-performance structural metals.

The Navy faces the complex task of efficiently managing diverse material streams, either generated as operational byproducts or at the end of their service life. The Office of Naval Research's Materials Treatment and Recovery program ensures their appropriate treatment and, where economically feasible, resource recovery.

The Office of Naval Research's Artificial Intelligence/Machine Learning for Photonics, Power & Energy, Atmospherics, and Quantum Science program is focused on machine learning techniques that can be applied to photonics, power and energy, thermal management and controls, atmospherics, communication, and quantum science for improved naval capabilities.

The Office of Naval Research's CAST program seeks to develop technologies to enable cooperative operations of unmanned maritime systems including unmanned underwater vehicles (UUVs), unmanned surface vessels (USVs) and weapons in a wide range of mission areas.

The Office of Naval Research's Advanced Ground and Amphibious Platforms program researches, develops and exploits science and technologies at the intersection of the mechanical, control and electronic system domains to enhance the maneuverability and mobility of ground and amphibious manned and unmanned platforms.