Engineering Environmental Resiliency (EER)

Key Facts

Status: Open

Posted date: April 24, 2026

Opportunity ID: 362064

Opportunity number: PD-26-370Y

Opportunity category: Discretionary

Agency name: U.S. National Science Foundation

Agency code: NSF

Award floor: $0

Award ceiling: $0

Cost sharing required: No

Funding Instrument Types
  • Grant
Category of Funding Activity
  • Science and Technology and other Research and Development
Eligible Applicants
  • Unrestricted
Tools
Categories (use these for quoted searches)
  • agency_code:nsf
  • category_of_funding_activity:science_and_technology_and_other_research_and_development
  • cost_sharing_or_matching_requirement:false
  • eligible_applicants:unrestricted
  • funding_instrument_type:grant
  • opportunity_category:discretionary
  • status:open
Description

TheEngineering Environmental Resiliency (EER)programsupports fundamental researchtoadvance resource and energy conservation and recovery,and tosafeguardthe natural environmentandhumanhealth.Better useofdomestic resources will helpmakeU.S.manufacturing andenergy systemsmore resilient and secure.EER projects advance artificial intelligence; biotechnology;quantum science and engineering;nanoengineering;microelectronics;and other national priorities. EER supports research thattransforms biotechnologyand manufacturingto createdomesticsourcesof energy;engineered chemical, biological, and/or geo-physical processesmay be involved.The programsupports studieson the sustainability of benign manufacturing.EERsupports thedevelopment ofinnovativetechnologies that minimize or re-use waste discharges to soil, water, and air by closing resource loops.EER also supports research on sustainable recycling and management ofwastematerials and critical minerals. EER supportsstudieson life cycleassessment, materials flow analysis, andAImodeling to advance the circular economy. EERresearch encompasses thechemistry,biochemistry, transport, andfateof nutrients and contaminants of emerging concern in air, water, soil, and sediments. It also includesthebiochemical reactivityof pollutantsinthe built environment.EER welcomesideasthatgrowfundamental and quantitative understanding ofhownanomaterials andnanosystemsinteractwith biological and environmental media.The program also supports researchonengineered systems that safeguard health and quality of life throughtheaccuratedetectionofandrapidresponsetopathogensandtoxinsin water,soiland air. Proposals with amaingoal of understanding earth systems are moreappropriate fortheNSF Directorate for Geosciences. Proposalsthatfocus on human behavior orsocialresponses to environmental issues area better fitfortheNSF Directorate for Social, Behavioral and Economic Sciences.   Partnerships:Tospeeddiscovery and innovation, NSF partners with federal agencies, industry, internationalgroups, and others. Current opportunities are atNSF ENG Partnerships.

Engineering Environmental Resiliency (EER)
TheEngineering Environmental Resiliency (EER)programsupports fundamental researchtoadvance resource and energy conservation and recovery,and tosafeguardthe natural environmentandhumanhealth.Better useofdomestic resources will helpmakeU.S.manufacturing andenergy systemsmore resilient and secure.EER projects advance artificial intelligence; biotechnology;quantum science and engineering;nanoengineering;microelectronics;and other national priorities. EER supports research thattransforms biotechnologyand manufacturingto createdomesticsourcesof energy;engineered chemical, biological, and/or geo-physical processesmay be involved.The programsupports studieson the sustainability of benign manufacturing.EERsupports thedevelopment ofinnovativetechnologies that minimize or re-use waste discharges to soil, water, and air by closing resource loops.EER also supports research on sustainable recycling and management ofwastematerials and critical minerals. EER supportsstudieson life cycleassessment, materials flow analysis, andAImodeling to advance the circular economy. EERresearch encompasses thechemistry,biochemistry, transport, andfateof nutrients and contaminants of emerging concern in air, water, soil, and sediments. It also includesthebiochemical reactivityof pollutantsinthe built environment.EER welcomesideasthatgrowfundamental and quantitative understanding ofhownanomaterials andnanosystemsinteractwith biological and environmental media.The program also supports researchonengineered systems that safeguard health and quality of life throughtheaccuratedetectionofandrapidresponsetopathogensandtoxinsin water,soiland air. Proposals with amaingoal of understanding earth systems are moreappropriate fortheNSF Directorate for Geosciences. Proposalsthatfocus on human behavior orsocialresponses to environmental issues area better fitfortheNSF Directorate for Social, Behavioral and Economic Sciences.   Partnerships:Tospeeddiscovery and innovation, NSF partners with federal agencies, industry, internationalgroups, and others. Current opportunities are atNSF ENG Partnerships.
Engineering Environmental Resiliency (EER)
Open
U.S. National Science Foundation
Science and Technology and other Research and Development
Grant
Unrestricted
2026-04-24