Department of Defense, Department of Transportation, Department of Health and Human Services, National Science Foundation, NASA

Develop an innovative method, process, or technology to replace aqueous hazardous materials used for surface preparation of aluminum alloys prior to application of chemical conversion coating or anodization as a corrosion protective coating and pre-paint adhesion promoter.

Develop and demonstrate performance of a material that can be used as a pavement top layer that, within a target of one hour from start of application to a prepared sublayer, can support at least 100 passes of loading equivalent to landing a C-17.

This Funding Opportunity Announcement (FOA) encourages applications for Phased Innovation (R21/R33) grant awards to utilize 3D printing technologies to develop implantable devices and biodegradable scaffolds for long-term use that will adapt to the needs of growing children. This FOA provides support for up to two years (R21 phase) for research planning activities and feasibility studies, followed by a possible transition to expanded research support (R33 phase). Transition to the R33 depends on the completion of applicant-defined milestones, as well as program priorities and the availability of funds.

BES solicits applications in two topical areas: 1) novel and innovative methods for characterization, transformation, and separation of nuclear waste; and 2) new materials for long-term storage of nuclear waste, including waste forms. Research related to contaminant fate and transport in subsurface geological environments is outside the scope of this FOA.

The Office of Basic Energy Sciences (BES) of the U.S. Department of Energy (DOE) announces its interest in receiving applications in Computational Materials Sciences proposing integrated, multidisciplinary teams that will perform research to develop validated community codes and data bases for predictive design of functional materials, excluding structural materials.

The purpose of this Notice of Intent is to provide potential applicants advance notice that the Department of Energy, Office of Energy Efficiency and Renewable Energy intends to issue, on behalf of the Vehicle Technologies Office, a Funding Opportunity Announcement, number DE-FOA-0001384 entitled FY 2016 Vehicle Technologies Program Wide Funding Opportunity Announcement.

DARPA is seeking innovative ideas and disruptive technologies that offer the potential for significant capability improvement across the Strategic Technology Office focus areas. This includes technology development related to Battle Management, Command and Control (BMC2), Communications and Networks, Electronic Warfare, Intelligence, Surveillance, and Reconnaissance (ISR), Position, Navigation, and Timing (PNT), Maritime, and Foundational Strategic Technologies and Systems. Proposed research should investigate approaches that enable revolutionary advances in science, devices, or systems. DARPA anticipates funding a limited number of proposals under this BAA. Specifically excluded are existing mature solutions and research that results in evolutionary improvements to existing technologies.

Develop low SWaP-C Cryogenic Heat Exchangers based on Highly Anisotropic Materials by harvesting advances in anisotropic materials science to enable reduced volume, weight, and manufacturing cost for low temperature heat exchangers to enable cryogenic technologies to be deployed on SWaP-C sensitive platforms, e.g. UAV and satellites.