Defense Advanced Research Projects AgencyTagged Content List

Transformative Materials

Relating to new or improved properties in materials

Showing 5 results for Materials + Energy RSS
01/07/2015
Transduction involving the conversion of energy from one form into another is common in many military and space devices, such as communications antennas (radio waves to electrical signals), thermoelectric generators (heat to electricity) and electric motors (electromagnetic to kinetic energy). Research efforts to develop new transductional materials, however, have largely been limited to laboratory demonstrations and haven’t always resulted in new capabilities or significant size, weight, and power (SWAP) reduction for military devices and systems.
The BioFuels program seeks to develop renewable jet fuel (JP-8) for military aviation that meets or exceeds JP-8 performance metrics to help reduce the military’s dependence on traditional petroleum-derived fuels. These renewable fuels are derived from cellulosic materials and algal species that don’t compete with consumable food crops. The cellulosic material conversion process aims to demonstrate technology to enable 50% energy conversion efficiency in the conversion of cellulosic material feedstock to JP-8.
Program Manager
Dr. David K. Abe joined DARPA in January 2020 as a program manager in the Microsystems Technology Office (MTO). His research interests include the generation of coherent electromagnetic radiation using electron beams, radio frequency (RF) directed energy devices and applications, electromagnetic coupling and effects on electronics, and high power millimeter-wave/sub-millimeter-wave devices for sensors and communications.
05/29/2020
The purpose of this Polyplexus Pilot Topic Opportunity Notice is to provide public notification of a research and development funding opportunity on the Polyplexus online platform.
06/04/2020
The purpose of this Polyplexus Pilot Topic Opportunity Notice is to provide public notification of a research and development funding opportunity on the Polyplexus online platform.