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Chemical Catalysis | NSF - National Science Foundation

The primary objective of the course is to present students with the concepts and practical applications of the science of toxicology. This course is designed to provide students with a basic understanding of the principles of toxicology, focusing on the biochemical, physiological, and ecological effects of various toxicants. The use of toxicology in biomedical, pharmaceutical, agrochemical, and environmental research will be examined and discussed.

NSF: Chemical Synthesis [PD-09-6878] | Nano

The CAT Program does not support applied catalysis research focusing on engineering aspects of catalysis such as scale-up, processing, transport dynamics, and long-term stability. Researchers contemplating proposals in these areas are directed to the NSF Division of Chemical, Bioengineering, Environmental, and Transport Systems (CBET). Researchers focused on enzymatic or cellular catalysis should consult the Chemistry of Life Processes (CLP) Program. Catalysis research with immediate objectives in the synthesis of complex natural products using established catalysts should be submitted to the Chemical Synthesis (SYN) Program. Finally, research primarily targeted at catalytic reaction mechanisms using known catalysts are most appropriate for submission to the Chemical Structures, Dynamics and Mechanisms–B (CSDM A-B) Program.

NSF Chemical Synthesis Program (PD-09-6878) | NY-BEST

Inorganic, materials, and physical chemistry: electron transfer, catalysis, fixation and utilization of carbon dioxide.

Surface science of complex environmental interfaces: heterogeneous atmospheric chemistry of sea spray and mineral dust; aerosol impacts on climate; applications and implications of nanoscience and nanotechnology.

The Chemical Synthesis Program supports experimental and computational research on the development of new and efficient synthetic methodologies and on the synthesis of complex and/or challenging chemical structures. Typical synthetic targets include novel structures (including natural products and biomolecules), molecules and structures displaying unique properties, or substances that provide pathways to discover and elucidate new phenomena. Examples of supported research areas include the development of innovative reagents, discovery of new synthetic methods, and synthesis of novel organic, organometallic, and inorganic structures. Research in this program will generate fundamental new knowledge of chemical synthesis, but also enable new discoveries and the development of transformative technologies in related fields. Submissions that address national needs for sustainability are encouraged. Examples include, but are not limited to: the development of new synthetic methods using earth-abundant and inexpensive chemicals, fundamental studies that improve our understanding of rare earth elements; the conversion of non-petroleum based resources into useful building blocks; and new environmentally-friendly chemical syntheses that improve on current practice by requiring less energy, fresh water, reagents, and/or organic solvents. The Chemical Synthesis Program does not support projects where the main objectives are to study the properties of target systems, even though they may contain a large synthetic component. Proposed studies of this nature may be directed to the Chemical Structure, Dynamics, and Mechanism-B (CSDM-B) Program. Investigators interested in developing novel synthetic approaches to macromolecular, supramolecular and nanoscale chemical structures should consult the Macromolecular, Supramolecular and Nanochemistry (MSN) Program. Projects developing syntheses of extended solids should consult the Division of Materials Research (DMR). Proposals that have a major focus on the design of new catalysts and study of catalytic reactions should be submitted to the Chemical Catalysis (CAT) Program.

NSF: Chemical Synthesis — Oklahoma Water Resources …

The Chemical Synthesis Program supports experimental and computational research on the development of new and efficient synthetic methodologies and on the synthesis of complex and/or challenging chemical structures. Typical synthetic targets include novel structures (including natural products and biomolecules), molecules and structures displaying unique properties, or substances that provide pathways to discover and elucidate new phenomena. Examples of supported research areas include the development of innovative reagents, discovery of new synthetic methods, and synthesis of novel organic, organometallic, and inorganic structures. Research in this program will generate fundamental new knowledge of chemical synthesis, but also enable new discoveries and the development of transformative technologies in related fields.

The Chemical Catalysis Program supports experimental and computational research directed towards the fundamental understanding of the chemistry of catalytic processes. The CAT Program accepts proposals on catalytic approaches, which facilitate, direct, and accelerate efficient chemical transformations. The program scope includes the design and synthesis of catalytic species on the molecular, supramolecular, and nanometer scales as well as mechanistic studies primarily focused on discovery, development, or improvement of homogeneous and heterogeneous catalytic processes. The CAT Program also considers (but is not limited to) the following: polymerization catalysis, single site catalysis, organocatalysis, inorganic, organometallic, and photoredox catalysis, electrocatalysis, and biologically-inspired catalysis. Applications of modeling, theory, and simulation to catalytic processes are also relevant. Fundamental studies of energy-related catalytic processes (such as in water splitting and fuel cells) and photocatalysis (such as in solar energy conversion) are welcome in the CAT Program.Submissions that address national needs for sustainability are particularly encouraged. Examples of sustainable chemistry appropriate for the Chemical Catalysis Program include, but are not limited to: the design, preparation and reactivity studies associated with new catalysts and catalytic processes that will replace rare, and/or toxic compounds with earth-abundant and benign alternatives and advanced catalytic methods for the reduction of dinitrogen to ammonia that will permit reductions in the energy requirements and greenhouse gas emissions for fertilizer production.The CAT Program does not support applied catalysis research focusing on engineering aspects of catalysis such as scale-up, processing, transport dynamics, and long-term stability. Researchers contemplating proposals in these areas are directed to the NSF Division of Chemical, Bioengineering, Environmental, and Transport Systems (CBET). Researchers focused on enzymatic or cellular catalysis should consult the Chemistry of Life Processes (CLP) Program. Catalysis research with immediate objectives in the synthesis of complex natural products using established catalysts should be submitted to the Chemical Synthesis (SYN) Program. Finally, research primarily targeted at catalytic reaction mechanisms using known catalysts are most appropriate for submission to the Chemical Structures, Dynamics and Mechanisms–B (CSDM A-B) Program.

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31.08.2014 · NSF's mission is to ..

The VICB established educational programs to increase awareness of chemical biology at Vanderbilt and to train the next generation of researchers. The VICB Seminar Program brings top chemical biologists from around the world to campus and also highlights major accomplishments by Vanderbilt faculty. The Seminar Program serves as the focal point for one of three graduate levels courses in chemical biology that are offered by Institute faculty. The NIH-funded Integrative Training in Therapeutic Discovery and Chemical Biology Interface Training Grants have supported numerous graduate students and postdoctoral fellows in chemical biology, while the NSF-sponsored Research Experiences for Undergraduates program brings undergraduate students to campus each summer to work in VICB member laboratories. The annual Research Symposium, planned and conducted by students, provides a forum for the presentation of their latest research, and the Chemical Biology Association of Students provides an opportunity to socialize. Students interested in formalizing their training may complete the Chemical Biology Certificate Program.

The Chemical Catalysis Program supports experimental and ..

The Chemical Catalysis Program supports experimental and computational research directed towards the fundamental understanding of the chemistry of catalytic processes. The CAT Program accepts proposals on catalytic approaches, which facilitate, direct, and accelerate efficient chemical transformations. The program scope includes the design and synthesis of catalytic species on the molecular, supramolecular, and nanometer scales as well as mechanistic studies primarily focused on discovery, development, or improvement of homogeneous and heterogeneous catalytic processes. The CAT Program also considers (but is not limited to) the following: polymerization catalysis, single site catalysis, organocatalysis, inorganic, organometallic, and photoredox catalysis, electrocatalysis, and biologically-inspired catalysis. Applications of modeling, theory, and simulation to catalytic processes are also relevant. Fundamental studies of energy-related catalytic processes (such as in water splitting and fuel cells) and photocatalysis (such as in solar energy conversion) are welcome in the CAT Program.

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An introduction to soils from a natural science perspective, emphasizing the relationship between soils and geology, climate, vegetation, and landscapes. Concepts will include soil physical and chemical properties, soil formation and horizonation, soil water, erosion, soil geography, and environmental and sustainability issues related to soil. Practical field and laboratory skills will be emphasized, including standard techniques and terminology for describing soils in the field, applying the US system of soil classification, interpreting National Resources Conservation Service soil survey data and performing geospatial analysis of digital soils data. A required field trip will allow students to observe soils in a variety of landscape settings.

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