Group items matching

in title, tags, annotations or url

The Nanoscale Interactions program is part of the Environmental Engineering and Sustainabilitycluster, which also includes: 1) the Environmental Engineering program; and 2) the Environmental Sustainability program. The goal of theNanoscale Interactions program is to support research toadvance fundamental and quantitative understanding of the interactions of nanomaterials and nanosystems with biological andenvironmental media. Materials of interest include one- to three-dimensional nanostructures, heterogeneous nano-bio hybrid assemblies, dendritic and micelle structures, quantum dots, and other nanoparticles.Such nanomaterials and systems frequently exhibit novel physical, chemical, photonic, electronic, and biological behavior as compared to the bulk scale. Collaborative and interdisciplinary proposals are encouraged. Research areas supported by the program include:

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.

This FOA will support high-impact R&D for plastics by developing new plastics that are capable of efficient recyclability and improving recycling strategies that can break existing plastics into chemical building blocks that can be used to make higher-value products. DOE's Bioenergy Technologies Office (BETO) develops technologies that convert domestic Biomass and waste resources into fuels, products, and power to enable affordable energy, economic growth, and innovation in renewable energy and chemicals production. DOE's Advanced Manufacturing Office (AMO) develops technologies that drive energy productivity improvements in the U.S. manufacturing sector, efficiently utilize abundant and available domestic energy resources, and support the manufacture of clean energy products with benefits extending across the economy. This Funding Opportunity Announcement (FOA) will support high-impact technology research and development (R&D) to enable the development of technologies that overcome the challenges associated with plastic waste. Topic Areas include: 1) Highly Recyclable or Biodegradable Plastics: develop new plastics that have improved performance attributes over a comparable existing plastic that can be cost-effectively recycled or Biodegrade completely in the environment or in compost facilities. 2) Novel Methods for Deconstructing and Upcycling Existing Plastics: generate energy efficient recycling technologies (mechanical, chemical, or Biological) that are capable of breaking plastic streams into intermediates which can be upgraded into higher value products. 3) BOTTLE Consortium Collaborations to Tackle Challenges in Plastic Waste: create collaborations with the Bio-Optimized Technologies to Keep Thermoplastics out of Landfills and the Environment (BOTTLE) Laboratory Consortium to further the long-term goals of the Consortium and the Plastics Innovation Challenge.

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.

In 2016, the National Science Foundation (NSF) unveiled a set of "Big Ideas," 10 bold, long-term research and enabling ideas that identify areas for future investment at the frontiers of science and engineering (see https://www.nsf.gov/news/special_reports/big_ideas/index.jsp). The Big Ideas represent unique opportunities to position our Nation at the cutting edge of global science and engineering leadership by bringing together diverse disciplinary perspectives to support convergence research. As such, although when responding to this solicitation proposals must be submitted to the Division of Emerging Frontiers in the Directorate for Biological Sciences (Bio/EF), upon receipt proposals will be managed by a cross-Directorate team of NSF Program Directors. A full list of the Understanding the Rules of Life awards can be found on the NSF Awards Search.

Pharmaceutical blister packages often have moisture and oxygen barrier requirements to maintain the efficacy of the drug they contain. Traditional barrier materials used today are PCTFE, EVOH, PVDC, PVC, COC, and combinations thereof. Klockner Pentaplast Films is seeking a thermoformable solution that can be made into blister packs that protects pharmaceuticals from moisture and oxygen. Although the use of glass bottles meets the technical specs of this RFP, studies have shown that compliance to medication instructions increases when patients and consumers use blister packs. The technology must: * Be a material, or a technology that enables the modification of a material, to achieve ALL of the following properties: - Can be made into a thermoformable film - Provides the moisture barrier equivalence of 0.015 g-mil/100 in²-day - Provides an oxygen barrier equivalence of 0.005 cm³-mil/100 in²-day - Be approved (or approvable) for food safety by the FDA - Contains no halogens *Other properties that are highly desired but not required for this application: - Optically clear - Can be recycled in traditional recycling streams - Contains mostly bio-based, natural, or sustainable materials

NOTE: Webpage provides information about general webinar and BIO Directorate breakout. If you are interested in breakouts for other directorates, contact Heather Johnston (johnsthb@MiamiOH.edu) in Research & Innovation for information. On Wednesday, November 4, 2020 and Thursday, November 5, 2020, NSF will host outreach webinars with information about the Mid-Scale Research Infrastructure (Mid-scale RI)-1 funding opportunity (NSF 21-505). The Mid-scale RI Big Idea is intended to provides an agile, Foundation-wide process to fund experimental research capabilities in the mid-scale range ($6 million to $100 million), between the Major Research Instrumentation (MRI) and Major Facilities thresholds.  Recently, the solicitation (NSF 21-505) for the Mid-scale RI-1 program (for infrastructure with total project cost of $6 million up until, but not including, $20 million) was published with a deadline of January 7, 2021 for preliminary proposals. Each session will begin at 1:00 p.m. EST and have two parts: a general Mid-scale RI-1 information session (1:00 p.m. -1:40 p.m. EST) with Q&A followed by Directorate-specific breakouts (1:45 p.m. - 2:30 p.m. EST) where more technical questions will be addressed. The information presented on Day 1 will be the same as the information presented on Day 2.

The National Institute of Biomedical Imaging and Bioengineering (NIBIB) and VentureWell have come together to support and expand DEBUT, a competition that recognizes undergraduate excellence in Biomedical design and innovation. DEBUT challenges teams of students in undergraduate Biomedical education to solve real world problems in healthcare. Prizes of up to $20,000 will be awarded, with a total prize purse of $80,000. Strong DEBUT submissions will demonstrate a mastery of analytical and design skills and capabilities; the ability to manage the product development process; the ability to work effectively in teams; and technical communication skills. Submissions will be judged on the following criteria: Significance of the problem being addressed Impact of proposed solution on potential users and clinical care Innovative design Working prototype