| Agency | Title | Synopsis | Deadline | Type/Number |
| NIH | NIDCR Small Research Grants for Data Analysis and Statistical Methodology (R03) | The goal of this funding opportunity announcement (FOA) is to support meritorious research projects that involve secondary data analyses or statistical methodology using existing dental or craniofacial database resources. | 1/25/2010 | Grant - PAR-06-211 |
| NIH | Methodology and Measurement in the Behavioral and Social Sciences (R01) | Research grant applications aimed at improving and developing methodology and measurement in the behavioral and social sciences through innovations in research design, data collection techniques, measurement, and data analysis techniques. | 9/7/2011 | Grant - PAR-08-212 |
| NIH | Methodology and Measurement in the Behavioral and Social Sciences (R21) | Research grant applications aimed at improving and developing methodology and measurement in the behavioral and social sciences through innovations in research design, data collection techniques, measurement, and data analysis techniques. | 9/7/2011 | Grant - PAR-08-213 |
| NIH | Methodology and Measurement in the Behavioral and Social Sciences (R03) | Research grant applications aimed at improving and developing methodology and measurement in the behavioral and social sciences through innovations in research design, data collection techniques, measurement, and data analysis techniques. | 9/7/2011 | Grant - PAR-08-214 |
| NSF | Theory, Models and Computational Methods (TMC) | Supports the discovery and development of theoretical and computational methods to address a range of chemical challenges, with emphasis on emerging areas of chemical research. Proposals that focus on established methods should involve innovative approaches that substantially broaden their applicability. Methods of interest include, but are not limited to, those addressing electronic structure, quantum reaction dynamics, statistical mechanics, molecular dynamics, and simulation techniques for molecular or supramolecular systems. Areas of application span the full range of chemical systems from small molecules to macromolecules and degrees of aggregation from single molecules or small clusters to nanoscopic and even larger systems. While application areas may involve any chemical system, including biological systems or materials, the goal of the program is to support the development of new theoretical and computational methodologies that will be broadly applicable to a range of challenging problems. | 11/30/2009 | Grant - PD 09-6881 |
| NSF | Theory, Models and Computational Methods | Supports the discovery and development of theoretical and computational methods to address a range of chemical challenges, with emphasis on emerging areas of chemical research. Proposals that focus on established methods should involve innovative approaches that substantially broaden their applicability. Methods of interest include, but are not limited to, those addressing electronic structure, quantum reaction dynamics, statistical mechanics, molecular dynamics, and simulation techniques for molecular or supramolecular systems. Areas of application span the full range of chemical systems from small molecules to macromolecules and degrees of aggregation from single molecules or small clusters to nanoscopic and even larger systems. While application areas may involve any chemical system, including biological systems or materials, the goal of the program is to support the development of new theoretical and computational methodologies that will be broadly applicable to a range of challenging problems. We are particularly interested in fundamental areas of research that are difficult or impossible to address using current synthetic, experimental, and/or computational methodologies. | 11/30/2009 | Grant - PD-09-6881 |
| NSF | Macromolecular, Supramolecular and Nanochemistry | The Macromolecular, Supramolecular and Nanochemistry (MSN) Program focuses on basic research in chemistry that addresses interactions leading to the assembly of macromolecular, supramolecular and nanoscopic species and other organized structures that show unique chemical and physical properties and reactivities. Research of interest to this program includes: the study of forces which are responsible for spatial organization in organic, inorganic or hybrid systems; novel synthesis relevant to the program topics; innovative surface functionalization chemistry; and the formation of clusters, aggregates, nanoparticles and large molecular architectures. Interactions that give rise to molecular self assembly, metal organic frameworks, template-directed syntheses, and chemically dynamic systems like molecular machines are also appropriate for this Program. Investigations may utilize experimental and/or computational methods to predict and/or understand the chemical structure, properties and reactivities of these unique structures.One objective of the MSN Program is to bridge the gap between molecular chemistries and material science and engineering. | 11/30/2009 | Grant - PD-09-6885 |
| NSF | Computational Mathematics | Supports mathematical research in areas of science where computing plays a central and essential role, emphasizing algorithms design, numerical methods and their analysis, and symbolic methods. | 12/15/2009 | Grant - PD-09-1271 |
| NSF | Industry/University Cooperative Research Centers Program (I/UCRC) | Develops long-term partnerships among industry, academe, and government. The centers are catalyzed by a small investment from the National Science Foundation (NSF) and are primarily supported by industry center members, with NSF taking a supporting role in the development and evolution of the center. Each center is established to conduct research that is of interest to both the industry members and the center faculty. An I/UCRC not only contributes to the Nation's research infrastructure base and enhances the intellectual capacity of the engineering and science workforce through the integration of research and education, but also encourages and fosters international cooperation and collaborative projects. | 1/1/2010 | Grant - NSF 09-565 |
| NSF | Biomolecular Systems Cluster | upports fundamental research in the areas of molecular biophysics, molecular biochemistry, and metabolic biochemistry. The cluster emphasizes the relationships between structure, function, and dynamics in studies of individual macromolecules, macromolecular complexes, and metabolic pathways. Research of interest to the cluster includes novel and creative projects addressing protein folding and dynamics, natively unfolded proteins, protein design, molecular recognition, enzymology, energy transformations in living systems, and the components, architecture and flux in metabolic pathways. The cluster encourages research projects integrating theoretical, computational, and experimental approaches to discover and define basic molecular mechanisms, as well as projects developing cutting-edge technologies in the context of biological questions relevant to the cluster. The cluster also encourages multi-disciplinary research at the interface of biology with physics, chemistry, mathematics, computer science, and engineering. | 1/12/2010 | Grant - PD 04-1144 |
| NSF | Biomolecular Systems Cluster | he Biomolecular Systems Cluster emphasizes the structure, function, dynamics, interactions, and interconversions of biological molecules. The context for such studies can range from investigations of individual macromolecules to the large-scale integration of metabolic and energetic processes. Research supported by this cluster includes development of cutting-edge technologies integrating theoretical, computational, and experimental approaches to the study of biological molecules and their functional complexes; mechanistic studies of the regulation and catalysis of enzymes and RNA, and higher-order characterization of the biochemical processes by which all organisms acquire, transform, and utilize energy from substrates. This cluster emphasizes the importance of multi-disciplinary research carried out at the interfaces of biology, physics, chemistry, mathematics and computer science, and engineering. | 1/12/2010 | Grant - PD-04-1144 |
| NSF | Mathematical Biology | The Mathematical Biology Program supports research in areas of applied and computational mathematics with relevance to the biological sciences. Successful proposals are mathematically innovative and address challenging problems of interest to members of the biological community. | 1/13/2010 | Grant - PD-09-7334 |
| NSF | Instrumentation for Materials Research | The IMR Program supports the acquisition and/or development of research instruments that will provide new capability and/or advance current capability to: (1) discover fundamental phenomena in materials; (2) synthesize, process, and/or characterize the composition, structure, properties, and performance of materials; and (3) improve the quality, expand the scope, and foster and enable the integration of research and education in research-intensive environments. | 1/14/2010 | Grant - NSF-07-600 |
| NSF | Methodology, Measurement, and Statistics (MMS) | The Methodology, Measurement, and Statistics (MMS) Program is an interdisciplinary program in the Social, Behavioral, and Economic Sciences that supports the development of innovative analytical and statistical methods and models for those sciences. MMS seeks proposals that are methodologically innovative, grounded in theory, and have potential utility for multiple fields within the social and behavioral sciences. | 1/16/2010 | Award - NSF 08-561 |
| NSF | Building Engineered Complex Systems (BECS) | Seeks to provide "seed funding" for small teams of innovative engineers and mathematical scientists (mathematicians or statisticians) to seek and develop a theoretical basis of complex systems, with the aim of developing formal methods for the design of engineered complex systems. | 1/19/2010 | Grant - NSF-09-610 |
| NSF | Foundations of Data and Visual Analytics (FODAVA) | Research proposals whose outcomes will enable data stakeholders to detect the expected and discover the unexpected in massive data sets. Research outcomes will be applicable across broad application areas, establishing a solid scientific foundation for visual analytics systems of the future. | 1/20/2010 | Grant - NSF-09-525 |
| NSF | Collaboration in Mathematical Geosciences | Activity is to enable collaborative research at the intersection of mathematical sciences and geosciences, and to encourage cross-disciplinary education | 1/22/2010 | Grant - NSF 09-520 |
| NSF | Interdisciplinary Training for Undergraduates in Biological and Mathematical Sciences | The goal of the Undergraduate Biology and Mathematics (UBM) activity is to enhance undergraduate education and training at the intersection of the biological and mathematical sciences and to better prepare undergraduate biology or mathematics students to pursue graduate study and careers in fields that integrate the mathematical and biological sciences. | 2/11/2010 | Grant - NSF-08-510 |
| NSF | Dynamical Systems (DS) | Supports innovative research on the theories of dynamical systems, including new analytical and computational tools, as well as the novel application of dynamical systems to engineered systems. The program is especially interested in transformative research in the area of complex systems, uncertain or stochastic nonlinear dynamical systems, model order reduction of nonlinear or infinite dimensional dynamical systems, discrete nonlinear dynamical systems, and modeling, simulation, analysis and design of multi-scale multi-physics dynamical systems. | 2/15/2010 | Grant - PD 09-7478 |
| NSF | Industry/University Cooperative Research Centers Program (I/UCRC) | Develops long-term partnerships among industry, academe, and government. The centers are catalyzed by a small investment from the National Science Foundation (NSF) and are primarily supported by industry center members, with NSF taking a supporting role in the development and evolution of the center. Each center is established to conduct research that is of interest to both the industry members and the center faculty. An I/UCRC not only contributes to the Nation's research infrastructure base and enhances the intellectual capacity of the engineering and science workforce through the integration of research and education, but also encourages and fosters international cooperation and collaborative projects. | 3/6/2010 | Grant - NSF 09-565 |
| NSF | Workforce Program in the Mathematical Sciences | The program's primary interest is in activities centered on education through research involvement for trainees at the undergraduate through postdoctoral educational levels. Activities that broaden participation in the mathematical sciences are of significant interest to the Division of Mathematical Sciences. | 5/15/2010 | Grant - PD 08-7335 |
| NSF | Workforce Program in the Mathematical Sciences | The program's primary interest is in activities centered on education through research involvement for trainees at the undergraduate through postdoctoral educational levels. Activities that broaden participation in the mathematical sciences are of significant interest to the Division of Mathematical Sciences. | 6/15/2010 | Grant - PD 08-7335 |
| NSF | Workforce Program in the Mathematical Sciences | The long-range goal of the DMS Workforce Program is to increase the number of well-prepared U.S. citizens, nationals, and permanent residents who successfully pursue careers in the mathematical sciences and in other NSF-supported disciplines. Among intermediate goals to this end are improvements in recruitment, retention, education, and placement of trainees in the mathematical sciences. The program's primary interest is in activities centered on education through research involvement for trainees at the undergraduate through postdoctoral educational levels. Activities that broaden participation in the mathematical sciences are of significant interest to the Division of Mathematical Sciences.The program is particularly interested in activities that improve: recruitment and retention: increasing the number and diversity of U.S. students who successfully pursue undergraduate and graduate degrees in mathematics and statistics; educational breadth: broadening graduate education and undergraduate education content in the mathematical sciences to prepare students for a wider range of career opportunities; and professional development: enhancing the professional skills of mathematical sciences postdoctoral associates, graduate students, and undergraduate students to better prepare them for both academic and nonacademic employment.The program welcomes unsolicited proposals for activities that address the program goals in innovative and creative ways. | 6/15/2010 | Grant - PD-08-7335 |
| NSF | Faculty Early Career Development (CAREER) Program | The Faculty Early Career Development (CAREER) Program is a Foundation-wide activity that offers the National Science Foundation's most prestigious awards in support of junior faculty who exemplify the role of teacher-scholars through outstanding research, excellent education and the integration of education and research within the context of the mission of their organizations. Such activities should build a firm foundation for a lifetime of leadership in integrating education and research. | 7/20/2010 | Grant - NSF-08-557 |
| NSF | Faculty Early Career Development (CAREER) Program | The Faculty Early Career Development (CAREER) Program is a Foundation-wide activity that offers the National Science Foundation's most prestigious awards in support of junior faculty who exemplify the role of teacher-scholars through outstanding research, excellent education and the integration of education and research within the context of the mission of their organizations. Such activities should build a firm foundation for a lifetime of leadership in integrating education and research. | 7/21/2010 | Grant - NSF-08-557 |
| NSF | Faculty Early Career Development (CAREER) Program | The Faculty Early Career Development (CAREER) Program is a Foundation-wide activity that offers the National Science Foundation's most prestigious awards in support of junior faculty who exemplify the role of teacher-scholars through outstanding research, excellent education and the integration of education and research within the context of the mission of their organizations. Such activities should build a firm foundation for a lifetime of leadership in integrating education and research. | 7/22/2010 | Grant - NSF-08-557 |
| NSF | Theory, Models and Computational Methods (TMC) | Supports the discovery and development of theoretical and computational methods to address a range of chemical challenges, with emphasis on emerging areas of chemical research. Proposals that focus on established methods should involve innovative approaches that substantially broaden their applicability. Methods of interest include, but are not limited to, those addressing electronic structure, quantum reaction dynamics, statistical mechanics, molecular dynamics, and simulation techniques for molecular or supramolecular systems. Areas of application span the full range of chemical systems from small molecules to macromolecules and degrees of aggregation from single molecules or small clusters to nanoscopic and even larger systems. While application areas may involve any chemical system, including biological systems or materials, the goal of the program is to support the development of new theoretical and computational methodologies that will be broadly applicable to a range of challenging problems. | 8/2/2010 | Grant - PD 09-6881 |
| NSF | Theory, Models and Computational Methods | Supports the discovery and development of theoretical and computational methods to address a range of chemical challenges, with emphasis on emerging areas of chemical research. Proposals that focus on established methods should involve innovative approaches that substantially broaden their applicability. Methods of interest include, but are not limited to, those addressing electronic structure, quantum reaction dynamics, statistical mechanics, molecular dynamics, and simulation techniques for molecular or supramolecular systems. Areas of application span the full range of chemical systems from small molecules to macromolecules and degrees of aggregation from single molecules or small clusters to nanoscopic and even larger systems. While application areas may involve any chemical system, including biological systems or materials, the goal of the program is to support the development of new theoretical and computational methodologies that will be broadly applicable to a range of challenging problems. We are particularly interested in fundamental areas of research that are difficult or impossible to address using current synthetic, experimental, and/or computational methodologies. | 8/2/2010 | Grant - PD-09-6881 |
| NSF | Macromolecular, Supramolecular and Nanochemistry | The Macromolecular, Supramolecular and Nanochemistry (MSN) Program focuses on basic research in chemistry that addresses interactions leading to the assembly of macromolecular, supramolecular and nanoscopic species and other organized structures that show unique chemical and physical properties and reactivities. Research of interest to this program includes: the study of forces which are responsible for spatial organization in organic, inorganic or hybrid systems; novel synthesis relevant to the program topics; innovative surface functionalization chemistry; and the formation of clusters, aggregates, nanoparticles and large molecular architectures. Interactions that give rise to molecular self assembly, metal organic frameworks, template-directed syntheses, and chemically dynamic systems like molecular machines are also appropriate for this Program. Investigations may utilize experimental and/or computational methods to predict and/or understand the chemical structure, properties and reactivities of these unique structures.One objective of the MSN Program is to bridge the gap between molecular chemistries and material science and engineering. | 8/2/2010 | Grant - PD-09-6885 |
| NSF | Education and Interdisciplinary Research | Supports activities in conjunction with NSF-wide programs such as Faculty Early Career Development (CAREER), Research Experiences for Undergraduates (REU), and programs aimed at women, minorities, and persons with disabilities. Further information about all of these programs and activities is available in the Crosscutting Investment Strategies section of the NSF Guide to Programs. The program also supports activities that seek to improve the education and training of physics students (both undergraduate and graduate), such as curriculum development for upper-level physics courses, and activities that are not included in specific programs elsewhere within NSF. The program supports research at the interface between physics and other disciplines and extending to emerging areas. Broadening activities related to research at the interface with other fields, possibly not normally associated with physics, also may be considered. | 9/29/2010 | Cooperative Agreement - PD-03-9134 |
| NSF | Dynamical Systems (DS) | Supports innovative research on the theories of dynamical systems, including new analytical and computational tools, as well as the novel application of dynamical systems to engineered systems. The program is especially interested in transformative research in the area of complex systems, uncertain or stochastic nonlinear dynamical systems, model order reduction of nonlinear or infinite dimensional dynamical systems, discrete nonlinear dynamical systems, and modeling, simulation, analysis and design of multi-scale multi-physics dynamical systems. | 10/1/2010 | Grant - PD 09-7478 |
| NSF | NSF/DOE Partnership in Basic Plasma Science and Engineering | The goal of this three year (FY09-FY11) program initiative is to enhance plasma research and education in this broad, multidisciplinary field by coordinating efforts and combining resources of the two agencies. The initiative will address fundamental issues in plasma science and engineering that can have impact in other areas or disciplines in which improved basic understanding of the plasma state is needed. | 10/8/2010 | Grant - 09-596 |
| NSF | Electronic and Photonic Materials | The goal of this program is to advance the field of electronics and photonics through basic, potentially transformative materials science research. The scope of the program encompasses the discovery and understanding of materials and material combinations with potential for major technological advantages. Program focus is on identification and understanding of fundamental atomic and molecular level mechanisms and phenomena associated with synthesis and processing of electronic and photonic materials. High risk, high payoff research is encouraged. | 10/31/2010 | Cooperative Agreement - PD-03-1775 |
| NSF | Geometric Analysis | The program in Geometric Analysis supports research on differential geometry and its relation to partial differential equations and variational principles; aspects of global analysis, including the differential geometry of complex manifolds and geometric Lie group theory; geometric methods in modern mathematical physics; and geometry of convex sets, integral geometry, and related geometric topics. | 11/2/2010 | Grant - PD-07-1265 |
| NSF | Statistics | Supports research in statistical theory and methods, including research in statistical methods for applications to any domain of science and engineering. The theory forms the base for statistical science. The methods are used for stochastic modeling, and the collection, analysis and interpretation of data. The methods characterize uncertainty in the data and facilitate advancement in science and engineering. The Program encourages proposals ranging from single-investigator projects to interdisciplinary team projects. | 11/7/2010 | Grant - PD-08-1269 |
| NSF | Probability | The Probability Program supports research on the theory and applications of probability. Subfields include discrete probability, stochastic processes, limit theory, interacting particle systems, stochastic differential and partial differential equations, and Markov processes. Research in probability which involves applications to other areas of science and engineering is especially encouraged. | 11/7/2010 | Grants - PD-04-1263 |
| NSF | Statistics | The Statistics Program supports research in statistical theory and methods, including research in statistical methods for applications to any domain of science and engineering. The theory forms the base for statistical science. The methods are used for stochastic modeling, and the collection, analysis and interpretation of data. The methods characterize uncertainty in the data and facilitate advancement in science and engineering. The Program encourages proposals ranging from single-investigator projects to interdisciplinary team projects. | 11/7/2010 | Award - PD 08-1269 |
| NSF | | Supports research in statistical theory and methods, including research in statistical methods for applications to any domain of science and engineering. The theory forms the base for statistical science. The methods are used for stochastic modeling, and the collection, analysis and interpretation of data. The methods characterize uncertainty in the data and facilitate advancement in science and engineering. The Program encourages proposals ranging from single-investigator projects to interdisciplinary team projects. | 11/7/2010 | Grant - PD 09-1271 |
| NSF | Probability | The Probability Program supports research on the theory and applications of probability. Subfields include discrete probability, stochastic processes, limit theory, interacting particle systems, stochastic differential and partial differential equations, and Markov processes. Research in probability which involves applications to other areas of science and engineering is especially encouraged. | 11/7/2010 | Award - PD 04-1263 |
| NSF | Applied Mathematics | Supports mathematics research motivated by or having an effect on problems arising in science and engineering. Mathematical merit and novelty, as well as breadth and quality of impact on applications, are important factors. Proposals to develop critical mathematical techniques from individual investigators as well as interdisciplinary teams are encouraged. | 11/15/2010 | Award - PD 07-1266 |
| NSF | Macromolecular, Supramolecular and Nanochemistry | The Macromolecular, Supramolecular and Nanochemistry (MSN) Program focuses on basic research in chemistry that addresses interactions leading to the assembly of macromolecular, supramolecular and nanoscopic species and other organized structures that show unique chemical and physical properties and reactivities. Research of interest to this program includes: the study of forces which are responsible for spatial organization in organic, inorganic or hybrid systems; novel synthesis relevant to the program topics; innovative surface functionalization chemistry; and the formation of clusters, aggregates, nanoparticles and large molecular architectures. Interactions that give rise to molecular self assembly, metal organic frameworks, template-directed syntheses, and chemically dynamic systems like molecular machines are also appropriate for this Program. Investigations may utilize experimental and/or computational methods to predict and/or understand the chemical structure, properties and reactivities of these unique structures.One objective of the MSN Program is to bridge the gap between molecular chemistries and material science and engineering. | 11/30/2010 | Grant - PD-09-6885 |
| NSF | Theory, Models and Computational Methods | Supports the discovery and development of theoretical and computational methods to address a range of chemical challenges, with emphasis on emerging areas of chemical research. Proposals that focus on established methods should involve innovative approaches that substantially broaden their applicability. Methods of interest include, but are not limited to, those addressing electronic structure, quantum reaction dynamics, statistical mechanics, molecular dynamics, and simulation techniques for molecular or supramolecular systems. Areas of application span the full range of chemical systems from small molecules to macromolecules and degrees of aggregation from single molecules or small clusters to nanoscopic and even larger systems. While application areas may involve any chemical system, including biological systems or materials, the goal of the program is to support the development of new theoretical and computational methodologies that will be broadly applicable to a range of challenging problems. We are particularly interested in fundamental areas of research that are difficult or impossible to address using current synthetic, experimental, and/or computational methodologies. | 11/30/2010 | Grant - PD-09-6881 |
| NSF | Mathematical Biology | The Mathematical Biology Program supports research in areas of applied and computational mathematics with relevance to the biological sciences. Successful proposals are mathematically innovative and address challenging problems of interest to members of the biological community. | 1/13/2011 | Grant - PD-09-7334 |
| NSF | NSF/DOE Partnership in Basic Plasma Science and Engineering | The goal of this three year (FY09-FY11) program initiative is to enhance plasma research and education in this broad, multidisciplinary field by coordinating efforts and combining resources of the two agencies. The initiative will address fundamental issues in plasma science and engineering that can have impact in other areas or disciplines in which improved basic understanding of the plasma state is needed. | 10/7/2011 | Grant - 09-596 |
| NSF | Mathematical Biology | The Mathematical Biology Program supports research in areas of applied and computational mathematics with relevance to the biological sciences. Successful proposals are mathematically innovative and address challenging problems of interest to members of the biological community. | 1/13/2012 | Grant - PD-09-7334 |
| NSF | Exploratory Innovations in Biomedical Computational Science and Technology (R21) | Interested in promoting research and developments in biomedical informatics and computational biology that will support rapid progress in areas of scientific opportunity in biomedical research. As defined here, biomedical informatics and computational biology includes database design, graphical interfaces, querying approaches, data retrieval, data visualization and manipulation, data integration through the development of integrated analytical tools, and tools for electronic collaboration, as well as computational and mathematical research including the development of structural, functional, integrative, and analytical computational models and simulations. | 9/7/2012 | Grant - PAR-09-219 |
| NSF | NSF/DOE Partnership in Basic Plasma Science and Engineering | The goal of this three year (FY09-FY11) program initiative is to enhance plasma research and education in this broad, multidisciplinary field by coordinating efforts and combining resources of the two agencies. The initiative will address fundamental issues in plasma science and engineering that can have impact in other areas or disciplines in which improved basic understanding of the plasma state is needed. | 10/5/2012 | Grant - 09-596 |
| NSF | Mathematical Biology | The Mathematical Biology Program supports research in areas of applied and computational mathematics with relevance to the biological sciences. Successful proposals are mathematically innovative and address challenging problems of interest to members of the biological community. | 1/13/2013 | Grant - PD-09-7334 |
| University of Oxford | Post-Doctoral Research Fellowships | All Souls College offers Post-Doctoral Research Fellowships to men and women in the following fields of study (broadly conceived): law, history, philosophy, economics, politics, language and literature, classical studies, oriental studies, and mathematical and theoretical sciences. | 9/19/2010 | Fellowship - GSU-321 |
