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MiamiOH OARS

Environmental Chemical Sciences | NSF - National Science Foundation - 0 views

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    The Environmental Chemical Sciences (ECS) Program supports basic research in chemistry that promotes the understanding of natural and anthropogenic chemical processes in our environment.  Projects supported by this program enable fundamentally new avenues of basic research and transformative technologies. The program is particularly interested in studying molecular phenomena on surfaces and interfaces in order to understand the inherently complex and heterogeneous environment.  Projects utilize advanced experimental, modeling and computational approaches, as well as developing new approaches.  Topics include studies of environmental surfaces and interfaces under laboratory conditions, the fundamental properties of water and water solutions important in environmental processes, dissolution, composition, origin and behavior of molecular scale systems under a variety of naturally occurring environmental conditions, chemical reactivity of synthetic nanoparticles and their molecular level interactions with the environment, and application of theoretical models and computational approaches to discover and predict environmental phenomena at the molecular scale.
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    The Environmental Chemical Sciences (ECS) Program supports basic research in chemistry that promotes the understanding of natural and anthropogenic chemical processes in our environment.  Projects supported by this program enable fundamentally new avenues of basic research and transformative technologies. The program is particularly interested in studying molecular phenomena on surfaces and interfaces in order to understand the inherently complex and heterogeneous environment.  Projects utilize advanced experimental, modeling and computational approaches, as well as developing new approaches.  Topics include studies of environmental surfaces and interfaces under laboratory conditions, the fundamental properties of water and water solutions important in environmental processes, dissolution, composition, origin and behavior of molecular scale systems under a variety of naturally occurring environmental conditions, chemical reactivity of synthetic nanoparticles and their molecular level interactions with the environment, and application of theoretical models and computational approaches to discover and predict environmental phenomena at the molecular scale.
MiamiOH OARS

Environmental Chemical Sciences - 0 views

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    The Environmental Chemical Sciences (ECS) Program supports basic research in chemistry that promotes the understanding of natural and anthropogenic chemical processes in our environment. Projects supported by this program enable fundamentally new avenues of basic research and transformative technologies. The program is particularly interested in studying molecular phenomena on surfaces and interfaces in order to understand the inherently complex and heterogeneous environment. Projects utilize advanced experimental, modeling and computational approaches, as well as developing new approaches. Topics include studies of environmental surfaces and interfaces under laboratory conditions, the fundamental properties of water and water solutions important in environmental processes, dissolution, composition, origin and behavior of molecular scale systems under a variety of naturally occurring environmental conditions, chemical reactivity of synthetic nanoparticles and their molecular level interactions with the environment, and application of theoretical models and computational approaches to discover and predict environmental phenomena at the molecular scale.The ECS program supports research in basic chemical aspects of our environment. Programs in the Biological Sciences, Engineering and Geosciences Directorates as well as other federal agencies address other aspects such as field studies.
MiamiOH OARS

Environmental Justice Small Grant Program - 0 views

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    The Environmental Justice Small Grants (EJSG) Program provides funding for eligible applicants for projects that address local environmental and public health issues within an affected community. The EJSG Program is designed to help communities understand and address exposure to multiple environmental harms and risks. Applying organizations are encouraged to have a direct connection to the vulnerable affected, community impacted by environmental harms and risks.
MiamiOH OARS

Postdoctoral Program in Environmental Chemistry - 0 views

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    The Camille and Henry Dreyfus Foundation seeks to further the development of scientific leadership in the field of environmental chemistry with a postdoctoral fellowship program. The Postdoctoral Program in Environmental Chemistry provides a principal investigator with an award of $120,000 over two years to appoint a Postdoctoral Fellow in environmental chemistry.
MiamiOH OARS

Environmental Engineering | NSF - National Science Foundation - 0 views

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    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.
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    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.
MiamiOH OARS

Environmental System Science - 0 views

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    The DOE SC program in Biological and Environmental Research (BER) hereby announces its interest in receiving applications for research in Environmental Systems Science (ESS), including Terrestrial Ecosystem Science (TES) and Subsurface Biogeochemical Research (SBR). The goal of the Environmental System Science (ESS) activity in BER is to advance a robust, predictive understanding of the set of interdependent physical, biogeochemical, ecological, hydrological, and geomorphological processes for use in Earth system, ecosystem and reactive transport models. Using an iterative approach to model-driven experimentation and observation, and interdisciplinary teams, ESS-supported scientists work to unravel the coupled physical, chemical and biological processes that control the structure and functioning of terrestrial ecosystems and integrated watersheds across critical spatial and temporal scales. This FOA will consider applications that focus on improving the understanding and representation of terrestrial and subsurface environments in ways that advance the sophistication and capabilities of local, regional, and larger scale models.
MiamiOH OARS

Environmental Research Apprenticeship Program for College and University Students | Res... - 0 views

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    EPA-ORD seeks applications from eligible entities to enter into a cooperative agreement with EPA that will provide training opportunities for undergraduate and graduate students on-site at ORD's Ground Water and Ecosystems Research Division (GWERD) research facilities located in Ada, Oklahoma.  It is envisioned that the training program will increase both the effectiveness and number of future environmental scientists. The training received under the mentorship of EPA scientists will complement the trainees' academic coursework. The recipient will be responsible for ensuring that the training projects are supportive of the trainees' academic training.  Some appropriate fields of study for trainees include, but are not limited to, environmental science, water policy, chemistry, engineering, computer science, ecology, and physical and biological sciences.
MiamiOH OARS

Postdoctoral Program in Environmental Chemistry - 0 views

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    The Camille and Henry Dreyfus Foundation is inviting applications for its Postdoctoral Program in Environmental Chemistry, which provides a principal investigator with an award of $120,000 over two years to appoint a postdoctoral fellow in environmental chemistry. The program aims to support innovative fundamental research in the chemical sciences or engineering related to the environment. Examples include but are not limited to the chemistry associated with the climate, the atmosphere, aquatic or marine settings, toxicology, soil, or groundwater. Also of interest are chemistry-related energy research (renewable sources, sequestration, etc.), and new or green approaches to chemical synthesis and processing, both with a clearly stated relation to the environment.
MiamiOH OARS

Environmental Engineering - 0 views

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    The Environmental Engineering program supports fundamental research and educational activities across the broad field of environmental engineering.  The goal of this program is to encourage transformative research which applies scientific and engineering principles to avoid or minimize solid, liquid, and gaseous discharges, resulting from human activity, into 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.
MiamiOH OARS

Geobiology and Low-Temperature Geochemistry (nsf15559) - 0 views

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    The Geobiology and Low-Temperature Geochemistry Program focuses on geochemical processes in terrestrial Earth's surface environmental systems, as well as the interaction of geochemical and biological processes. The program supports field, laboratory, theoretical, and modeling studies of these processes and related mechanisms at all spatial and temporal scales. Studies may address: 1) inorganic and/or organic geochemical processes occurring at or near the Earth's surface now and in the past, and across the broad spectrum of interfaces ranging in scale from planetary and regional to mineral-surface and supramolecular; 2) the role of life in the transformation and evolution of Earth's geochemical cycles; 3) surficial chemical and biogeochemical systems and cycles, including their modification through environmental change and human activities; 4) low-temperature aqueous geochemical processes; 5) mineralogy and chemistry of earth materials; 6) geomicrobiology and biomineralization processes; and 7) medical mineralogy and geochemistry. The Program encourages research that focuses on geochemical processes as they are coupled with physical and biological processes in the critical zone. The Program also supports work on the development of tools, methods, and models for the advancement of low-temperature geochemistry and geobiology. The Geobiology and Low-Temperature Geochemistry Program is interested in supporting transformational and cutting-edge research. The Program is highly interdisciplinary and interfaces with other programs within the Earth Surface Section and with programs in biology, chemistry and engineering.
MiamiOH OARS

Particulate and Multiphase Processes | NSF - National Science Foundation - 0 views

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    The goal of the Particulate and Multiphase Processes (PMP) program is to support fundamental research on physico-chemical phenomena that govern particulate and multiphase systems, including flow of suspensions, drops and bubbles, granular and granular-fluid flows, behavior of micro- and nanostructured fluids, and self-assembly/directed-assembly processes that involve particulates.  The program encourages transformative research to improve our basic understanding of particulate and multiphase processes with emphasis on research that demonstrates how particle-scale phenomena affect the behavior and dynamics of larger-scale systems.  Although proposed research should focus on fundamentals, a clear vision is required that anticipates how results could benefit important applications in advanced manufacturing, energy harvesting, transport in biological systems, biotechnology, or environmental sustainability.  Collaborative and interdisciplinary proposals are encouraged, especially those that involve a combination of experiment with theory or modeling.  Proposals whose main focus is on the synthesis of particles are not encouraged.
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    The goal of the Particulate and Multiphase Processes (PMP) program is to support fundamental research on physico-chemical phenomena that govern particulate and multiphase systems, including flow of suspensions, drops and bubbles, granular and granular-fluid flows, behavior of micro- and nanostructured fluids, and self-assembly/directed-assembly processes that involve particulates.  The program encourages transformative research to improve our basic understanding of particulate and multiphase processes with emphasis on research that demonstrates how particle-scale phenomena affect the behavior and dynamics of larger-scale systems.  Although proposed research should focus on fundamentals, a clear vision is required that anticipates how results could benefit important applications in advanced manufacturing, energy harvesting, transport in biological systems, biotechnology, or environmental sustainability.  Collaborative and interdisciplinary proposals are encouraged, especially those that involve a combination of experiment with theory or modeling.  Proposals whose main focus is on the synthesis of particles are not encouraged.
MiamiOH OARS

Using a Total Environment Framework (Built, Natural, Social Environments) to Assess Lif... - 0 views

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    The U.S. Environmental Protection Agency (EPA), through its Science to Achieve Results (STAR) program, seeks applications for research on how pollution affects human health in the context of the total environment - built, natural, and social environments interacting together with inherent characteristics and interactions. Proposed research should develop and test innovative models or impact assessment approaches to examine causal relationships of chemical pollutants and health effects with modifying interactions among the variables representing all of the major stressors and factors involved in a person's life. Proposals that integrate a diverse field of disciplines (social science, economics, epidemiology, engineering, environmental science, biology, statistics, toxicology, chemistry, etc.) to address the complexity of the total environment research problem are highly recommended.
MiamiOH OARS

SYSTEMS-BASED RESEARCH FOR EVALUATING ECOLOGICAL IMPACTS OF MANUFACTURED CHEMICALS - 0 views

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    The U.S. Environmental Protection Agency (EPA), as part of its Science to Achieve Results (STAR) program, is seeking applications focusing on integrated, transdisciplinary research that would advance scientific understanding of potential for impacts to ecosystem wellbeing associated with the use of manufactured chemicals. Specifically, the RFA would solicit proposals for systems-based research to develop and apply innovative metrics and modeling approaches to improve evaluation of ecological resilience and impact analyses, and to support environmental sustainability. Successful proposals will translate emerging and advanced methods, data, and computational tools to address complexity of these systems and distill drivers of adverse outcomes to ecological organisms and populations.
MiamiOH OARS

Early Career Awards: SYSTEMS-BASED RESEARCH FOR EVALUATING ECOLOGICAL IMPACTS OF MANUFA... - 0 views

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    The U.S. Environmental Protection Agency (EPA), as part of its Science to Achieve Results (STAR) program, is seeking applications focusing on integrated, transdisciplinary research that would advance scientific understanding of potential for impacts to ecosystem wellbeing associated with the use of manufactured chemicals. Specifically, the RFA would solicit proposals for systems-based research to develop and apply innovative metrics and modeling approaches to improve evaluation of ecological resilience and impact analyses, and to support environmental sustainability. Successful proposals will translate emerging and advanced methods, data, and computational tools to address complexity of these systems and distill drivers of adverse outcomes to ecological organisms and populations.
MiamiOH OARS

Functional RNA Modifications Environment and Disease (FRAMED) (R01 Clinical Trial Not A... - 0 views

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    Chemical modifications of protein, DNA and RNA nucleoside moieties play critical roles in regulating gene expression. Emerging evidence suggests RNA modifications have substantive roles in multiple basic biological processes. Epitranscriptomics can be defined as the aggregate suite of functional biochemical modifications to the transcriptome within a cell. Recent studies in yeast, Drosophila, rodent and human models demonstrate that stressors can induce RNA modifications, with specific reprogramming of some regulatory RNAs. The NIEHS seeks to solicit innovative, mechanistic research applications that are focused on how environmental exposures are associated and involved with the functional activities of RNA modifications and pathways that may be modified or misregulated, associated with adverse health outcomes and/or be useful as biomarkers of exposure and/or exposure-induced pathologies. The study of functional chemical RNA modification has identified important emerging roles in cellular regulation and gene expression. However, the impact of environmental exposures on functional RNA modifications has been relatively understudied and may present a new mechanism for enhanced understanding the relationships between exposures and the development of complex human diseases. The NIEHS will use the R01 mechanism to support hypothesis driven research using approaches that incorporate principles of toxicology with RNA modification biological and/or chemical expertise and utilizes state of the art technologies.
MiamiOH OARS

Subsurface Biogeochemical Research - 0 views

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    SBR is part of the Environmental System Science (ESS) activity within the Climate and Environmental Sciences Division (CESD) of BER. The CESD mission is to enhance the seasonal to multi-decadal predictability of the Earth system by using long-term field experiments, DOE user facilities, modeling and simulation, uncertainty characterization, best-in-class computing, process research, and data analytics and management to inform the development of advanced solutions to the nation's energy challenges. The 2018 CESD Strategic Plan identifies five scientific grand challenges and associated research questions that will be addressed through the research programs and User Facilities within the division over the next five years (https://science.energy.gov/~/media/ber/pdf/workshop%20reports/2018_CESD_Strategic_Plan.pdf)
MiamiOH OARS

Dear Colleague Letter: Collaborative Funding Opportunitites in the Division of Chemical... - 0 views

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    The Division of Chemical, Bioengineering, Environmental, and Transport Systems (CBET) will consider proposals for collaborative funding with the Electric Power Research Institute (EPRI), the Water Environment & Reuse Foundation (WE&RF) [formerly the Water Environment Research Foundation], and/or the Water Research Foundation (WRF). For a proposal to be considered for collaborative funding, the proposal must be submitted to the appropriate NSF-CBET program as an unsolicited proposal during the CBET unsolicited submission window, which is October 1, 2016 - October 20, 2016. The same dates will apply in future years. Proposals will be reviewed as part of the unsolicited program(s). Proposals must follow guidelines for the CBET program to which they are submitted. Proposals will be evaluated according to the NSF criteria of intellectual merit and broader impacts.
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    The Division of Chemical, Bioengineering, Environmental, and Transport Systems (CBET) will consider proposals for collaborative funding with the Electric Power Research Institute (EPRI), the Water Environment & Reuse Foundation (WE&RF) [formerly the Water Environment Research Foundation], and/or the Water Research Foundation (WRF). For a proposal to be considered for collaborative funding, the proposal must be submitted to the appropriate NSF-CBET program as an unsolicited proposal during the CBET unsolicited submission window, which is October 1, 2016 - October 20, 2016. The same dates will apply in future years. Proposals will be reviewed as part of the unsolicited program(s). Proposals must follow guidelines for the CBET program to which they are submitted. Proposals will be evaluated according to the NSF criteria of intellectual merit and broader impacts.
MiamiOH OARS

Catalysis - 0 views

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    The Catalysis program is part of the Chemical Process Systems cluster, which also includes: 1) the Electrochemical Systems program; 2) the Interfacial Engineering program; and 3) the Process Systems, Reaction Engineering, and Molecular Thermodynamics program. The goals of the Catalysis program are to increase fundamental understanding in catalytic engineering science and to advance the development of catalytic materials and reactions that are beneficial to society. Research in this program should focus on new concepts for catalytic materials and reactions, utilizing synthetic, theoretical, and experimental approaches. Target applications include fuels, specialty and bulk chemicals, environmental catalysis, biomass conversion to fuels and chemicals, conversion of greenhouse gases, and generation of solar hydrogen, as well as efficient routes to energy utilization. Heterogeneous catalysis represents the main thrust of the program. Proposals related to both gas-solid and liquid-solid heterogeneous catalysis are welcome, as are proposals that incorporate concepts from homogeneous catalysis. Topic areas that are of particular interest include: · Renewable energy-related catalysis with applications in electrocatalysis, photocatalysis, and catalytic conversion of biomass-derived chemicals. Catalysis aimed at closing the carbon cycle (especially conversion of CO2, methane, and natural gas to fuels and chemical intermediates). · Catalytic alternatives to traditionally non-catalytic reaction processes, as well as new catalyst designs for established catalytic processes. · Environmental catalysis (including energy-efficient and green routes to fuels and chemicals). ·
MiamiOH OARS

RFA-ES-20-004: Optimizing Natural Systems for Remediation: Utilizing Innovative Materia... - 0 views

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    The National Institute of Environmental Health Sciences (NIEHS) invites qualified investigators from domestic institutions of higher education to apply to the Superfund Research Program (SRP) R01 Individual Research Project grant program. The mission of the NIEHS is to discover how the environment affects people in order to promote healthier lives. The NIEHS Superfund Research Program (SRP) (http://www.niehs.nih.gov/research/supported/srp/) was established under the Superfund Amendment Reauthorization Act (SARA) Section 311(a), which authorizes NIEHS to implement a university-based program of basic research for the development of: 1) advanced techniques for the detection, assessment, and evaluation of the effect of hazardous substances on human health; 2) methods to assess the risks to human health presented by hazardous substances; 3) methods and technologies to detect hazardous substances in the environment; and 4) basic biological, chemical, and physical methods to reduce the amount and/or toxicity of hazardous substances. SRP's broad scope, as dictated by the SARA mandates, allows NIEHS to support scientific research to address the wide array of scientific uncertainties facing the national Superfund program utilizing biomedical as well as environmental science and engineering approaches. Research supported by the SRP uses mechanistic science as a foundation and, in keeping with the broad research themes of the program mandates, the SRP promotes an interdisciplinary approach to develop solutions for the safe management of hazardous substances with the ultimate goal of improving public health.
MiamiOH OARS

Signals in the Soil (SitS) (nsf20548) | NSF - National Science Foundation - 0 views

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    The National Science Foundation (NSF) Directorates for Engineering (ENG) and Geosciences (GEO), the Divisions of Integrative Organismal Systems (IOS) and Environmental Biology (DEB), in the Directorate for Biological Sciences (BIO), the Division of Computer and Network Systems in the Directorate Computer and Information Science and Engineering (CISE/CNS), and the Division of Chemistry (CHE) in the Directorate for Mathematical and Physical Sciences, in collaboration with the US Department of Agriculture National Institute of Food and Agriculture (USDA NIFA) encourage convergent research that transforms existing capabilities in understanding dynamic soil processes, including soil formation, through advances in sensor systems and modeling. The Signals in the Soil (SitS) program fosters collaboration among the two partner agencies and the researchers they support by combining resources and funding for the most innovative and high-impact projects that address their respective missions. To make transformative advances in our understanding of soils, multiple disciplines must converge to produce environmentally-benign novel sensing systems with multiple modalities that can adapt to different environments and collect and transmit data for a wide range of biological, chemical, and physical parameters. Effective integration of sensor data will be key for achieving a better understanding of signaling interactions among plants, animals, microbes, the soil matrix, and aqueous and gaseous components. New sensor networks have the potential to inform models in novel ways, to radically change how data is obtained from various natural and managed (both urban and rural) ecosystems, and to better inform the communities that directly rely on soils for sustenance and livelihood.
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