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EPA/NSF Networks for Sustainable Molecular Design …

Summary: This solicitation is jointly sponsored between the U.S. Environmental Protection Agency (EPA) and the National Science Foundation (NSF) Divisions of Chemistry and Chemical, Bioengineering, Environmental, and Transport Systems (CBET) to encourage synergistic research activities and to enhance cooperation among the chemical sciences, materials research, geosciences, engineering, and biomedical and public health communities. The agencies jointly issue the solicitation, but will separately fund awards for Networks for Sustainable Molecular Design and Synthesis (NSMDS).

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Networks for Sustainable Molecular Design and Synthesis are groups of two or more researchers working in trans-disciplinary fields to promote the development of safe and sustainable chemicals as well as safe and sustainable synthetic procedures. For this solicitation, "chemicals" refers broadly to any and all materials, inorganic and organic compounds, and individual chemicals or mixtures of chemicals (e.g., endocrine disruptors, chlorofluorocarbons, transition metal-based catalysts, macromolecules, and nanomaterials). Advances resulting from these Networks are expected to result in chemicals that are safer and more sustainable throughout their life cycle and thus, the replacement of rare, toxic, and expensive chemicals with earth abundant, benign, and renewable alternatives is anticipated. The Networks will facilitate safe design strategies, processes, and pathways (including catalytic pathways) that consume less fresh water, generate less waste, and use less energy than current practice. These new approaches will minimize hazards that arise not only from chemical structure and intended use, but also from their synthesis, production, consumption, reuse, and disposal.

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EPA/NSF Networks for Sustainable Molecular Design and Synthesis (NSMDS) Deadline: Mar 18, 2013 - 05:00pm. Archive Date: Monday, March 18, 2013 - …

Innovation - The proposed work should challenge and seek to shift current research, design, or engineering paradigms towards sustainable molecular design and synthesis. Integrative theoretical concepts, approaches, methodologies, instrumentation, or intervention applicable to one or more fields of research are encouraged. Basic research results should be translated or transferred into social or economic benefit. Where appropriate, strategies for innovation should include intellectual property protection and proactive plans to engage industry in technology transfer.

Networks for Sustainable Molecular Design and Synthesis are groups of two or more researchers working in trans-disciplinary fields to promote the development of safe and sustainable chemicals as well as safe and sustainable synthetic procedures. For this solicitation, "chemicals" refers broadly to any and all materials, inorganic and organic compounds, and individual chemicals or mixtures of chemicals (e.g., endocrine disruptors, chlorofluorocarbons, transition metal-based catalysts, macromolecules, and nanomaterials). Advances resulting from these networks are expected to result in chemicals that are safer and more sustainable throughout their life cycle and thus, the replacement of rare, toxic, and expensive chemicals with earth abundant, benign, and renewable alternatives is anticipated. The networks will facilitate safe design strategies, processes, and pathways (including catalytic pathways) that consume less fresh water, generate less waste, and use less energy than current practice. These new approaches will minimize hazards that arise not only from chemical structure and intended use, but also from their synthesis, production, consumption, reuse, and disposal.
Education, workforce development, and the translation or transfer of basic research results into social or economic benefits are critical aspects of NSMDS projects. Networks will develop strong mentoring and training activities (which include broadening participation elements) for undergraduate and graduate students as well as postdoctoral associates. Other educational activities, such as informal science communication and the education of K-12 students or the public, are encouraged. Where appropriate, intellectual property protection and a proactive plan to engage industry in technology transfer is encouraged.

Chemistry and Biochemistry Courses

We report molecular design and synthesis of conjugated microporous polycarbazole networks as new precursors for nitrogen-enriched porous carbons

In 2012, the EPA and NSF partnered to encourage collaboration in applying principles of sustainability to chemical management issues, including design, manufacture, use, and disposal/recycle. In support of these joint efforts, NSF awarded over $16 million in grants under the Networks for Sustainable Molecular Design and Synthesis (NSMDS) program to four universities for research on sustainable molecular design of chemical alternatives. Additionally in early 2014, EPA awarded two grants totaling more than $9 million under the Networks for Characterizing Chemical Life Cycle (NCCLC) program to research ways to characterize and predict health implications of chemicals on people and the environment by studying chemicals throughout their life cycle from design, manufacture, and use through disposal. These six grant awards support EPA's and NSF's continued commitment to increase knowledge of chemical life cycles and sustainable chemistry.

5) Integrate computational science and data utilization (e.g., chemoinformatics and computational toxicology data) to advance a priori sustainable molecular design and synthesis;

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Biological Sciences, Division of—Courses

Sustainable chemistry-based products reach far beyond chemicals and chemical production. Nearly all areas of manufacturing and production use chemical products: dyes, glues, emulsifying agents, stabilizers, preservatives, chemicals for electronics and fertilizers are only a few examples. Sustainable chemistry therefore reaches all aspects of our daily life and all areas of society. Another important aspect is s ustainability in drug design and animal health. We monitor increasing amounts of steroids and antibiotic metabolites in the environment leading to human health problems and dangerous bacterial resistance. "End of pipe" technologies (waste water, waste air filters) as applied to reduce environmental damage of old technologies provide no solution of this treat. Only by a clever design on the molecular level of chemicals that after use will degrade fast and safe in the environment the problem can be overcome.

School of Engineering | Stanford University

This joint EPA/NSF solicitation will create Networks for Sustainable Molecular Design and Synthesis (NSMDS) that addresses major research challenges related to the sustainable molecular design of chemicals (i.e., molecules, macromolecules, and nanomaterials). These Networks will design safer pathways and processes that minimize hazards that arise not only from a chemical's structure and intended use, but also from its synthesis, production, consumption, reuse, and disposal.

Bachelor of Science in the School of Engineering

Successful Networks for Sustainable Molecular Design and Synthesis will propel fundamental changes in how and what chemistry is taught and how chemists and chemical engineers are trained to work across disciplines. One essential step along that path involves chemists and chemical engineers working in close collaboration with professionals from other science and engineering disciplines, such as toxicologists, exposure scientists, environmental fate specialists, biologists, mathematicians, computer scientists, and material scientists. NSMDS will integrate research, innovation, and education/workforce training (including broadening participation of underrepresented groups) in a comprehensive manner. NSMDS will also have specific plans for the translation or transfer of basic research results into social or economic benefit.

Mathematical and Natural Sciences

Networks for Sustainable Molecular Design and Synthesis are groups of two or more researchers working in trans-disciplinary fields to promote the development of safe and sustainable chemicals as well as safe and sustainable synthetic procedures and processes. For this solicitation, "chemicals" refers broadly to any and all materials, inorganic and organic compounds, and individual chemicals or mixtures of chemicals (e.g., endocrine disruptors, chlorofluorocarbons, transition metal-based catalysts, macromolecules, and nanomaterials). Advances resulting from these Networks are expected to result in chemicals that are safer and more sustainable throughout their life cycle and thus, the replacement of rare, toxic, and expensive chemicals with earth abundant, benign, and renewable alternatives is anticipated. The Networks will facilitate safe design strategies, processes, and pathways (including catalytic pathways) that consume less fresh water, generate less waste, and use less energy than current practice. These new approaches will minimize hazards that arise not only from chemical structure and intended use, but also from their synthesis, production, consumption, reuse, and disposal.

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