OARS funding Chemistry

The goal of the Environmental Engineering program is to support transformative research which applies scientific and engineering principles to avoid or minimize solid, liquid, and gaseous discharges, resulting from human activities on land, inland and coastal waters, and air, while promoting resource and energy conservation and recovery.  The program also fosters cutting-edge scientific research for identifying, evaluating, and monitoring the waste assimilative capacity of the natural environment and for removing or reducing contaminants from polluted air, water, and soils. Any proposal investigating sensors, materials or devices that does not integrate these products with an environmental engineering activity or area of research may be returned without review.

The goal of the Environmental Engineering program is to support transformative research which applies scientific and engineering principles to avoid or minimize solid, liquid, and gaseous discharges, resulting from human activities on land, inland and coastal waters, and air, while promoting resource and energy conservation and recovery.  The program also fosters cutting-edge scientific research for identifying, evaluating, and monitoring the waste assimilative capacity of the natural environment and for removing or reducing contaminants from polluted air, water, and soils. Any proposal investigating sensors, materials or devices that does not integrate these products with an environmental engineering activity or area of research may be returned without review.

The Office of Basic Energy Sciences (BES), U.S. Department of Energy (DOE), announces its interest in receiving grant applications from U.S. universities/institutions of higher education for basic research to investigate some of the outstanding scientific questions in the synthesis of ammonia (NH3) from nitrogen (N2) using processes that do not generate greenhouse gases (such as CO2, NOx, etc.). Of interest is molecular level research that will provide the scientific basis for novel catalysts and mechanisms for nitrogen activation. Ideally, this research should produce fundamental knowledge that will lead to future catalytic processes for ammonia synthesis that are energy efficient, use renewable sources of energy, and do not produce greenhouse gases. This FOA will not consider proposals on process or reactor design, optimization or plant-level intensification. Research will not be supported whose primary goal(s) or challenge(s) are hydrogen evolution, oxygen evolution, CO2 capture or conversion, or outside the specific focus on nitrogen activation. See the Summary Criteria section for more information on research areas excluded from this funding opportunity.