Fiscal Year (FY) 2025 Directors' Research Initiative (DRI)

Air Force Office of Scientific Research NOFOAFRLAFOSR20250001

This Director’s Research Initiative NOFO will fund topics that are of interest to the Air Force Office of Scientific Research, as well as areas of interest to the United States Space Force. The theme for this initiative is Energy for Agility. Discovery science is needed today to achieve the energy resources required for the future integrated employment of Air and Space Forces, for power generation and optimization, and resilience to exposure. 

In the coming decades, we are expecting to witness groundbreaking innovations in energy generation (in traditional methods, nuclear methods, and alternative methods of fuel and power), mobile energy storage, and power distribution that will change the way we think about energy for our Air and Space systems. 

Regardless of the selection of power generation and power requirements of a system, power system engineering should push beyond reliance on electrical engineering power conditioning concepts, and applied mathematical methods are required to create foundational competency to optimize power efficiency that take into account system activities with variable durations, purposes, and environments. A rigorous coupling 

between kinetics, mechanics, and electrochemistry is required for the discovery of next generation batteries. 

The convergence of major advancements in precision multi-material manufacturing, high fidelity functional material simulation, full linkages between component-operational-campaign level modeling, self-learning artificial intelligence, and advanced platform and propulsion designs will lead to revolutionary changes in system design processes and will enable rapid revolutionary system optimization. Increased activities in space will bring new exposures to radiation from, for example, space and mobile energy/power sources together with extreme environments. This creates new demands for protecting systems, such as needs for protective coatings or gear, radiation hardening, or multi-functionality of materials, electronics, and systems. Questions will likely arise around human exposure and protection, as agile energy may create localized extreme environments and novel exposure challenges. Advances in fundamental chemistry, fundamental biology, or computational sciences may prompt novel opportunities in the convergence of biosciences with unconventional energy concepts. 

This NOFO seeks proposals that will push the science of energy in many forms for agile future technologies. 

AFOSR intends to fund a minimum of four (4) awards, in the amount of $200,000 to $750,000 per year, for a maximum of three (3) years. The expected value of each award is anticipated to be $600,000 to $2,250,000.

The total amount of funding available for this initiative, for fiscal year 2025, is $2,300,000. 

Please contact the program director

White papers must be received by submitting to https://community.apan.org/wg/afosr/p/submitawhitepaper by 31 JAN 2025 at 11:59 PM 

Proposals must be received electronically through Grants.gov by 01 APR 2025 at 11:59 PM Eastern Time to be considered. 

The technical contacts for this announcement by program description, are as follows: SECTION	PROGRAM DESCRIPTION	PROGRAM OFFICER(s)
C.1.a	Bio-Agile Energy Optimization	Dr. Jennifer Talley, Dr. Bennett Ibey, & Major Travis Tubbs
C.2.a	Time Materials/Time Interfaces	Dr. Arje Nachman
C.3.a	Controlling Reactivity at Electrochemical Interfaces	Dr. Michael Berman
C.4.a	Collaborative Resource Sharing for Proliferated Space Architectures	Dr. Justin Koo, Dr. Andrew Sinclair, & Dr. Michael Yakes