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MiamiOH OARS

The NSF 2026 Idea Machine - 0 views

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    The NSF 2026 Idea Machine is a competition to help set the U.S. agenda for fundamental research in science and engineering. Participants can earn prizes and receive public recognition by suggesting the pressing research questions that need to be answered in the coming decade, the next set of "Big Ideas" for future investment by the National Science Foundation (NSF). It's an opportunity for researchers, the public and other interested stakeholders to contribute to NSF's mission to support basic research and enable new discoveries that drive the U.S. economy, enhance national security and advance knowledge to sustain the country's global leadership in science and engineering.
MiamiOH OARS

The Chan Zuckerberg Initiative Imaging Scientists - 0 views

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    The Chan Zuckerberg Initiative (CZI) seeks to support up to 10 Imaging Scientists who will work at the interface of biology, microscopy hardware, and imaging software at imaging centers across the United States. "Imaging Scientists" might be engineers, physicists, mathematicians, computer scientists, or biologists who have focused on technology development in either microscopy or data analysis fields. The primary goal of the program is to increase interactions between biologists and technology experts. The Imaging Scientists will have expertise in microscopy hardware and/or imaging software. A successful "Imaging Program" will employ an Imaging Scientist who: a) works collaboratively with experimental biologists on projects at the imaging center; b) participates in courses that disseminate advanced microscopy methods and analysis; c) trains students and postdocs in imaging technology; d) participates in a network of CZI Imaging Scientists to identify needs and drive advances in the imaging field; e) attends twice-yearly CZI scientific workshops and meetings in imaging and adjacent biomedical areas. Each grant will fund salary and fringe benefits for an Imaging Scientist at the center, a modest travel and teaching budget, plus 15% indirect costs. The award period is three years plus an additional two years if the Imaging Program passes a review at year three.
MiamiOH OARS

Low-cost solution for cryogenic temperature measurement 2c (deadline Sept. 29) - 0 views

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    A reliable and low-cost solution is required for measuring the temperature of components within a:

    Gaseous and liquid environment within a cryogenic helium vessel
    Vacuum vessel between the temperature range of 300-3K
    Magnetic fields up to 8T

    It may be acceptable for a solution to be proposed that can cover all the ranges of temperature however different solutions may also be considered for individual ranges if optimised solutions can be offered for some or all of the ranges.
MiamiOH OARS

Graduate Research Fellowship Program (GRFP) (nsf18573) | NSF - National Science Foundation - 0 views

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    The purpose of the NSF Graduate Research Fellowship Program (GRFP) is to help ensure the vitality and diversity of the scientific and engineering workforce of the United States. The program recognizes and supports outstanding graduate students who are pursuing full-time research-based master's and doctoral degrees in science, technology, engineering, and mathematics (STEM) or in STEM education. The GRFP provides three years of support for the graduate education of individuals who have demonstrated their potential for significant research achievements in STEM or STEM education. NSF especially encourages women, members of underrepresented minority groups, persons with disabilities, veterans, and undergraduate seniors to apply.

MiamiOH OARS

RFA-RM-18-024: Expanding the Human Genome Engineering Repertoire (U01 Clinical Trial No... - 0 views

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    The purpose of this Funding Opportunity Announcement (FOA) is to solicit applications proposing research on the development of novel and optimized alternatives to existing in vivo genome editing complexes.
MiamiOH OARS

RFA-RM-18-023: Innovative Technologies to Deliver Genome Editing Machinery to Disease-r... - 0 views

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    The purpose of this FOA is to support the development and evaluation of innovative approaches to deliver genome editing machinery into somatic cells, with the ultimate goal of accelerating the development of genome editing therapeutics to treat human disease. Projects will be supported through a two-phase, UG3/UH3 award mechanism. The initial 3-year UG3 phase will support proof of concept studies of delivery technologies and independent validation of targeted cell and tissue delivery in vivo. The 1-year UH3 phase will support scale-up and testing of genome editing technologies in collaboration with Large Animal Testing Centers.
MiamiOH OARS

Advancing Mechanistic Probiotic/Prebiotic and Human Microbiome Research (R01 Clinical T... - 0 views

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    The purpose of this funding opportunity announcement (FOA) is twofold: (1) to stimulate basic and mechanistic science that facilitates the development of effective probiotics or pre-/probiotic combinations of relevance to human health and disease; and (2) determine biological outcomes for the evaluation of efficacy of pre/probiotics in appropriate test systems and animal models. This FOA encourages basic and mechanistic studies using in vitro, in vivo, ex vivo, and in silico models that focus on prebiotic/probiotic strain selectivity, interaction, and function. It will also encourage inter and multidisciplinary collaborations among scientists in a wide range of disciplines including nutritional science, immunology, microbiomics, genomics, other '-omic' sciences, biotechnology, and bioinformatics.
MiamiOH OARS

Research Experiences for Undergraduates (REU) (nsf13542) | NSF - National Science Found... - 0 views

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    The Research Experiences for Undergraduates (REU) program supports active research participation by undergraduate students in any of the areas of research funded by the National Science Foundation. REU projects involve students in meaningful ways in ongoing research programs or in research projects specifically designed for the REU program. This solicitation features two mechanisms for support of student research: (1) REU Sites are based on independent proposals to initiate and conduct projects that engage a number of students in research. REU Sites may be based in a single discipline or academic department or may offer interdisciplinary or multi-department research opportunities with a coherent intellectual theme. Proposals with an international dimension are welcome. (2) REU Supplements may be included as a component of proposals for new or renewal NSF grants or cooperative agreements or may be requested for ongoing NSF-funded research projects.
MiamiOH OARS

View Opportunity | GRANTS.GOV - 0 views

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    As defined by the DoD, basic research is "systematic study directed toward greater knowledge or understanding of the fundamental aspects of phenomena and of observable facts without specific applications towards processes or products in mind. It includes all scientific study and experimentation directed toward increasing fundamental knowledge and understanding in those fields of the physical, engineering, environmental, and life sciences related to long-term national security needs. It is farsighted high payoff research that provides the basis for technological progress." (DoD 7000.14-R, vol. 2B, chap. 5, para. 050105.B) The DoD's basic research program invests broadly in many scientific fields to ensure that it has early cognizance of new scientific knowledge.
MiamiOH OARS

Defense Sciences Office (DSO) Office-Wide - Federal Business Opportunities: Opportunities - 0 views

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    The mission of the Defense Advanced Research Projects Agency (DARPA) Defense Sciences Office (DSO) is to identify and pursue high-risk, high-payoff research initiatives across a broad spectrum of science and engineering disciplines and to transform these initiatives into disruptive technologies for U.S. national security. In support of this mission, the DSO Office-wide BAA invites proposers to submit innovative basic or applied research concepts that address one or more of the following technical domains:
MiamiOH OARS

Research Interests of the Air Force Office of Scientific Research - 0 views

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    AFOSR plans, coordinates, and executes the Air Force Research Laboratory's (AFRL) basic research program in response to technical guidance from AFRL and requirements of the Air Force. Additionally, the office fosters, supports, and conducts research within Air Force, university, and industry laboratories; and ensures transition of research results to support U.S. Air Force needs. The focus of AFOSR is on research areas that offer significant and comprehensive benefits to our national war fighting and peacekeeping capabilities. These areas are organized and managed in two scientific Departments: Engineering and Information Science (RTA) and Physical and Biological Sciences (RTB). The research activities managed within each Department are summarized in this section.
MiamiOH OARS

Bilateral Academic Research Initiative (BARI) Pilot Program - 0 views

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    The BARI program supports basic research in science and engineering stemming from interactive collaborative efforts between U.S. institutions of higher education (hereafter referred to as "U.S. universities") and U.K. institutions of higher education (hereafter referred to as "U.K. universities") that is of potential interest to U.S. DoD and UK MOD. The program is focused on international collaborative research efforts where teams from the United States and the United Kingdom combine unique skillsets and approaches to provide rapid advances in scientific areas of mutual interest to the U.S. DoD and UK MOD. In the inaugural year of this program, this area is artificial intelligence and collaborative decision making.
MiamiOH OARS

DARPA Biological Technologies - 0 views

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    The mission of BTO is to foster, demonstrate, and transition breakthrough fundamental research, discoveries, and applications that integrate biology, engineering, computer science, mathematics, and the physical sciences. BTO's investment portfolio goes far beyond life sciences applications in medicine to include areas of research such as human-machine interfaces, microbes as production platforms, and deep exploration of the impact of evolving ecologies and environments on U.S. readiness and capabilities. BTO's programs operate across a wide range of scales, from individual cells to the warfighter to global ecosystems. BTO responds to the urgent and long-term needs of the Department of Defense (DoD) and addresses national security priorities.
MiamiOH OARS

Engineering of Biomedical Systems - 0 views

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    The Engineering of Biomedical Systems (EBMS)program is part of the Engineering Biology and Health cluster, which also includes 1) Biophotonics; 2) Biosensing; 3) Cellular and Biochemical Engineering; and 4) Disability and Rehabilitation Engineering. The goal of theEBMS program is to provide research opportunities for creating discovery-level and transformative projects that integrate engineering and life sciences to solve biomedical problems and serve humanity in the long term.EBMS projects must be at the interface of engineering and biomedical sciences. They are expected to use an engineering framework (for example, design or modeling) that supports increased understanding of physiological or pathophysiological processes. The project must include objectives that advance both engineering and biomedical sciences. EMBS projects should focus on high-impact, transformative methods and technologies -- especially those that potentially will have a broad impact on biomedical challenges. Projects may include: methods, models, and enabling tools applied to understand or control living systems; fundamental improvements in deriving information from cells, tissues, organs, and organ systems; or new approaches to the design of systems that include both living and non-living components for eventual medical use in the long term. TheEBMS programsupports fundamental and transformative research in the following areas of biomedical engineering:
MiamiOH OARS

Biosensing - 0 views

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    ) multiplex biosensing platforms that exceed the performance of current state-of-the-art devices; 2) novel transduction principles, mechanisms and sensor designs suitable for measurement in practical matrix and sample-preparation-free approaches, including error-free detection of pathogens and toxins in food matrices, waterborne pathogens, parasites, toxins, biomarkers in body fluids, neuron chemicals, and others that improve human condition; 3) biosensors that enable measurement of biomolecular interactions in their native states, transmembrane transport, intracellular transport and reactions, and other biological phenomena; 4) biosensing performance optimization for specific health applications such as point-of-care testing and personalized health monitoring; and 5) miniaturization of biosensors for lab-on-a-chip and cell/organ-on-a-chip applications to enable measurement of biological properties and functions of cell/tissues in vitro. The Biosensors Program does not encourage proposals addressing surface functionalization and modulation of bio-recognition molecules, development of basic chemical mechanisms for biosensing applications, circuit design for signal processing and amplification, computational modeling, and microfluidics for sample separation and filtration.
MiamiOH OARS

Cellular and Biochemical Engineering - 0 views

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    The Cellular and Biochemical Engineering (CBE)program is part of the Engineering Biology and Health cluster, which also includes 1) Biophotonics; 2) Biosensing; 3) Disability and Rehabilitation Engineering; and 4) Engineering of Biomedical Systems. TheCellular and Biochemical Engineering program supports fundamental engineering research that advances understanding of cellular andbiomolecular processes in engineering biology. CBE-funded research eventually leads to the development of enabling technology for advanced biomanufacturing in support of the therapeutic cell, biochemical, biopharmaceutical, and biotechnology industries. Fundamental to many research projects in this area is the understanding of how biomolecules, subcellular systems, cells, and cell populations interact in the biomanufacturing environment, and how those interactions lead to changes in structure, function, and behavior. A quantitative treatment of problems related to biological processes is considered vital to successful research projects in the CBE program. The program encourages highly innovative and potentially transformative engineering research leading to novel bioprocessing and biomanufacturing approaches. The CBE program also encourages proposals that effectively integrate knowledge and practices from different disciplines while incorporating ongoing research into educational activities.
MiamiOH OARS

PAR-18-777: Novel Genomic Technology Development (R01 Clinical Trial Not Allowed) - 0 views

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    This Funding Opportunity Announcement (FOA) seeks grant applications to catalyze major advances in genomics through technology development (beyond developing nucleic acid sequencing technologies). The goal is to provide a mechanism for support of very novel and high impact work from across this gamut of genomics technology development. This initiative seeks to support technologies that will have a major impact in the next five to seven years.
MiamiOH OARS

Novel Genomic Technology Development (R21 Clinical Trial Not Allowed) - 0 views

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    This Funding Opportunity Announcement (FOA) seeks grant applications to develop major advances in genomic technologies. Advances in genomics and more broadly in biomedical research have been greatly facilitated by significant and sustained genomics technology throughput increases, cost decreases, and improvements in ease of use. The proposed technology development work should allow comprehensive genomic analysis of features not assayable today, or an increase of no less than an order of magnitude improvement in an existing technology in terms of data quality, throughput, efficiency or comprehensiveness (individually or in combination). This FOA explicitly excludes the development of novel technologies for DNA sequencing and for direct RNA sequencing; those projects should respond to a parallel set of FOAs (RFA-HG-18-001, RFA-HG-18-002, and RFA-HG-18-003).
MiamiOH OARS

NSF/FDA Scholar-in-Residence at FDA (nsf18556) | NSF - National Science Foundation - 0 views

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    The National Science Foundation (NSF), through the Directorate for Engineering, the Directorate of Computer and Information Science and Engineering Division of Computer and Network Systems, and the Directorate for Mathematical and Physical Sciences Division of Materials Research, along with the U.S. Food and Drug Administration (FDA), through its Center for Devices and Radiological Health (CDRH), have established the NSF/FDA Scholar-in-Residence Program at FDA. This program comprises an interagency partnership for the investigation of scientific and engineering issues concerning emerging trends in medical device technology. This partnership is designed to enable investigators in science, engineering, and computer science to develop research collaborations within the intramural research environment at the FDA. This solicitation features three flexible mechanisms for support of research at the FDA: 1) Principal Investigators at FDA; 2) Postdoctoral Researchers at FDA; and 3) Graduate Students at FDA.
MiamiOH OARS

Enhancing Innovations in Emerging Technologies for Advanced Manufacturing of Complex Bi... - 0 views

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    CBER seeks to support the application of novel technologies for advanced manufacturing of complex biologic products, and innovative analytical approaches to improve product manufacturing and quality through active research.
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