Atmospheric Chemistry – NSF PD 98-1524
Supports research to measure and model the concentration and distribution of gases and aerosols in the lower and middle atmosphere. Also supports research on the chemical reactions among atmospheric species; the sources and sinks of important trace gases and aerosols; the aqueous-phase atmospheric chemistry; the transport of gases and aerosols throughout the atmosphere; and the improved methods for measuring the concentrations of trace species and their fluxes into and out of the atmosphere.
Proposals accepted anytime.
Grant Opportunities for Academic Liaison with Industry - NSF 12-513
Grant Opportunities for Academic Liaison with Industry (GOALI) promotes university-industry partnerships by making project funds or fellowships/traineeships available to support an eclectic mix of industry-university linkages. Special interest is focused on affording the opportunity for: Faculty, postdoctoral fellows, and students to conduct research and gain experience in an industrial setting; Industrial scientists and engineers to bring industry's perspective and integrative skills to academe; and Interdisciplinary university-industry teams to conduct research projects. This solicitation targets high-risk/high-gain research with a focus on fundamental research, new approaches to solving generic problems, development of innovative collaborative industry-university educational programs, and direct transfer of new knowledge between academe and industry. GOALI seeks to fund transformative research that lies beyond that which industry would normally fund.
Proposals Accepted Anytime
GeoPRISMS NSF 18-559
GeoPRISMS (Geodynamic Processes at Rifting and Subducting Margins) Program investigates the coupled geodynamics, earth surface processes, and climate interactions that build and modify continental margins over a wide range of timescales. These interactions cross the shoreline and have applications to margin evolution and dynamics, construction of stratigraphic architecture, accumulation of economic resources, and associated geologic hazards and environmental management. The GeoPRISMS Program includes two broadly integrated science initiatives (Subduction Cycles and Deformation (SCD) and Rift Initiation and Evolution (RIE)), linked by five overarching scientific topics and themes, where transformative advances are likely to occur in the decade 2011-2020, and where a focused scientific program could be most effective. These overarching science topics include 1) Origin and evolution of continental crust; 2) Fluids, magmas and their interactions; 3) Climate-surface-tectonics feedbacks; 4) Geochemical cycles; and 5) Plate boundary deformation and geodynamics. Each of the initiatives has identified primary sites for focused investigations, as well as thematic studies that will complement primary site studies. The GeoPRISMS Office, supported separately by an award to Pennsylvania State University, is tasked with community outreach and engagement through conferences, meetings, and maintenance of a website. More information about the function of the national office can be found here: http://geoprisms.org/about/organization/
August 13, 2018
The goal of the Environmental Sustainability program is to promote sustainable engineered systems that support human well-being and that are also compatible with sustaining natural (environmental) systems. These systems provide ecological services vital for human survival. Research efforts supported by the program typically consider long time horizons and may incorporate contributions from the social sciences and ethics. The program supports engineering research that seeks to balance society's need to provide ecological protection and maintain stable economic conditions.
Oct. 1, 2018
NSF: Environmental Sustainaibility PD 17-7643
The goal of the Environmental Sustainability program is to promote sustainable engineered systems that support human well-being and that are also compatible with sustaining natural (environmental) systems. These systems provide ecological services vital for human survival. Research efforts supported by the program typically consider long time horizons and may incorporate contributions from the social sciences and ethics. The program supports engineering research that seeks to balance society's need to provide ecological protection and maintain stable economic conditions. The four principal research areas are: 1) Industrial Ecology (advancements in modeling such as life cycle assessment, materials flow analysis, and input/output economic models); 2) Green Engineering (advancement of the sustainability of manufacturing processes, green buildings, and infrastructure); 3) Ecological Engineering (engineering aspects of restoring ecological function to natural systems); and 4) Earth Systems Engineering (engineering that considers aspects of large scale engineering research that involve mitigation of greenhouse gas emissions, adaptation to climate change, and other global scale concerns).
Oct. 1, 2018
The Environmental Engineering program is part of the Environmental Engineering and Sustainability cluster, which includes also 1) Environmental Sustainability; and 2) Biological and Environmental Interactions of Nanoscale Materials. 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.
Oct. 22,2 018
Environmental Chemical Sciences
The Environmental Chemical Sciences (ECS) Program supports experimental and computational research on the fundamental chemistry of processes in the environment. Recognizing the intrinsic complexity and heterogeneity of environmental systems, projects develop and utilize advanced experimental, modeling and simulation approaches to discover, explain, and predict environmental phenomena. Topics may include, but are not limited to: processes occurring at environmental interfaces and the chemical behavior and transformation under a variety of naturally occurring environmental conditions. Submissions that address national needs for sustainability are particularly encouraged. Examples of sustainable chemistry appropriate for the ECS Program include, but are not limited to: proposals that consider the nexus of food, energy, and water sustainability especially as related to nitrogen and phosphorus cycling. Field measurements and instrument development in support of environmental measurements are not supported. Programs in other NSF Directorates and other Federal Agencies address aspects such as field studies, large-scale models of the environment, toxicity studies, industrial processes, remediation methods, and the behavior and fate of nanoparticles in the environment.
Oct. 31, 2018
Dear Colleague Letter: FY 2017 Sustainable Chemistry, Engineering, and Materials (SusChEm) Funding Opportunity
In fiscal year (FY) 2013, NSF started an initiative to encourage and foster research in Sustainable Chemistry, Engineering, and Materials (SusChEM), partially in response to the mandate of the America COMPETES Reauthorization Act of 2010. The SusChEM initiative addresses the interrelated challenges of sustainable supply, engineering, production, and use of chemicals and materials. In FY 2017, the participating divisions are Chemistry (CHE); Chemical, Bioengineering, Environmental, and Transport Systems (CBET); Materials Research (DMR); Earth Science (EAR); and the Materials Engineering and Processing Program in the Division of Civil, Mechanical and Manufacturing Innovation (CMMI).
Dear Colleague Letter: Special Guidelines for Submitting Collaborative Proposals under the Division of Chemical, Bioengineering, Environmental, and Transport Systems-Engineering and pHysical Sciences Research Council UK Lead Agency Activity
The Directorate for Engineering (ENG), Division of Chemical, Bioengineering, Environmental and Transport Systems (CBET) of the National Science Foundation and the Engineering and Physical Sciences Research Council UK (EPSRC) are pleased to announce the CBET-EPSRC Lead Agency Activity under a NSF/RCUK Research Cooperation Memorandum of Understanding (MoU). The goal of this activity is to reduce some of the barriers that researchers currently encounter when working internationally. The CBET-EPSRC Lead Agency Activity will allow US and UK researchers to submit a single collaborative proposal that will undergo a single review process.
Dear Colleague Letter: Behavioral & Economic Sciences (NSF/SBE) and US-Israel Binational Science Foundation (BSF) Opportunity for Collaborations in Economics and Psychology
International collaborations are invited to submit proposals in the areas described in the following SBE programs: Division of Behavioral and Cognitive Sciences Core Programs: Social Psychology (PD 98-1332) Perception, Action, and Cognition (PD 09-7252) Cognitive Neuroscience (PD 15-1699) Developmental and Learning Sciences (PD 08-1698) Division of Social and Economic Sciences Core Programs: Economics (PD 98-1320) Decision, Risk and Management Sciences (PD 98-1321) NOTE: Only proposals focused on Decision Science are eligible to submit to this call. Proposals on Risk and Management Science are not eligible to participate in this collaborative opportunity. Proposals will be submitted to NSF, and the Israeli institution will submit a parallel proposal to BSF immediately afterwards. The proposals will be reviewed in competition with other proposals received for the same funding round by NSF using NSF's merit review process. It is important to note that there are no separate NSF funds available for these efforts; proposals must compete with all other proposals within the NSF program and must succeed on the strengths of their intellectual merit and broader impact. BSF will check the role of the Israeli scientist and her/his eligibility at the onset of the process, but will not conduct a parallel review and will not rank proposals; BSF is likely to fund any Israeli whose research partner is funded by NSF.
Humans, Disasters, and the Built Environment (HDBE)
The Humans, Disasters and the Built Environment (HDBE) program supports fundamental, multidisciplinary research on the interactions between humans and the built environment within and among communities exposed to natural, technological and other types of hazards and disasters. The program's context is provided by ongoing and emerging changes in three interwoven elements of a community: its population, its built environment (critical infrastructures, physical and virtual spaces, and buildings and related structures) and the hazards and disasters to which it is exposed. The HDBE program seeks research that integrates these elements and that can contribute to theories that hold over a broad range of scales and conditions. Examples include but are not limited to unified frameworks and theoretical models that encompass non-hazard to extreme hazard and disaster conditions, theoretical and empirical studies that consider how interactions between a community's population and its built environment may suppress or amplify hazard exposure or its effects, and studies that seek to inform scholarship through the development of shared data and related resources. In these and other areas funded through the HDBE program, research that challenges conventional wisdom on the interactions among humans, the built environment and hazards and disasters is particularly encouraged. Given the richness of the phenomena under study, the HDBE program seeks research that advances theories, methods and data within and across diverse disciplines, whether in engineering, the social sciences, computing or other relevant fields. Ultimately, research funded through this program is expected to inform how communities can cultivate and engage a broad range of physical, social and other resources to ensure improved quality of life for their inhabitants.
Proposals accepted anytime.
Innovative Corps- National Innovation Networks Teams Program (I-CorpsTM Teams) NSF 17-559
The National Science Foundation (NSF) seeks to develop and nurture a national innovation ecosystem that builds upon fundamental research to guide the output to facilitate the application of scientific discoveries closer to the development of technologies, products and processes that benefit society. In order to maintain, strengthen and grow a national innovation ecosystem, NSF has established the Innovation Corps - National Innovation Network Teams Program (I-Corps Teams). The NSF I-Corps Teams Program purpose is to identify NSF-funded researchers who will receive additional support in the form of entrepreneurial education, mentoring and funding to accelerate innovation that can attract subsequent third-party funding. The purpose of the NSF I-Corps Teams grant is to give the project team access to resources to help determine the readiness to transition technology developed by previously-funded or currently funded NSF projects. The outcomes of I-Corps Teams projects will be threefold: 1) a clear go /or no go decision regarding viability of products and services, 2) should the decision be to move the effort forward, a transition plan for those projects to move forward, and 3) a definition of a compelling technology demonstration for potential partners.
Submitted any time.