Author Archives: emily

National Endowment for the Arts FY 2021 Funding Guidelines Posted

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Guidelines and application materials for four National Endowment for the Arts funding categories–Grants for Arts Projects, Challenge America, Creative Writing Fellowships, and Literature Fellowships for Translation Projects–are available on the Arts Endowment’s website. Grant applications previously submitted to the Art Works category will now be submitted to the Grants for Arts Projects category. The National Endowment for the Arts supports projects in any part of the nation’s 50 states, the District of Columbia, and U.S. territories. Click here for an online presentation that gives an overview of the National Endowment for the Arts’ funding opportunities.

The FY 2021 Grants for Arts Projects and Challenge America programs support projects taking place beginning in 2021. Click the links in each section below for guidelines and application materials.

Grants for Arts Projects-Application Deadlines: February 13 & July 9, 2020

These grants support artistically excellent projects that celebrate our creativity and cultural heritage, invite mutual respect for differing beliefs and values, and enrich humanity. Cost share/matching grants generally range from $10,000 to $100,000. A minimum cost share/match equal to the grant amount is required.

A Grants for Arts Projects Guidelines Online Presentation for potential applicants will be available in January 2020.

Challenge America-Application Deadline: April 9, 2020

These grants support projects that extend the reach of the arts to underserved populations-those whose opportunities to experience the arts are limited by geography, ethnicity, economics, or disability. Grants are available for professional arts programming and for projects that emphasize the potential of the arts in community development. Grants are for a fixed amount of $10,000 and require a minimum $10,000 cost share/match.

A Challenge America Guidelines Online Presentation for potential applicants will be available in January 2020. In addition, there will be a separate presentation available for previous Challenge America applicants interested in applying for Grants for Arts Projects. NOTE: An organization may not apply to both the Grants for Arts Projects AND the Challenge America categories.

Creative Writing Fellowships: Poetry-Application Deadline: March 11, 2020

These $25,000 grants to published creative writers enable the recipients to set aside time for writing, research, travel, and general career advancement. Fellowships alternate each year between poetry and prose and FY 2021 fellowships are to support poetry.

Literature Fellowships for Translation Projects-Application Deadline: January 15, 2020

Translation Projects enable recipients to translate works from other languages into English. Non-matching grants are for $12,500 or $25,000.

Questions about any of these guidelines or your application? Please use the list on the NEA’s website to determine your appropriate staff contact. Please note that guidelines for the Research award opportunities will be available in January and the Our Town guidelines will be available in May 2020.

Dreyfus Program for Machine Learning in the Chemical Sciences and Engineering

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Proposal Deadline: April 2, 2020

The goal of this program is to further the understanding and applications of machine learning throughout the chemical sciences, thereby providing new opportunities.

“In view of the increasing attention to and expectations for the profound impacts that artificial intelligence and data science will have on physical science and engineering, the Dreyfus Foundation plans to make strategic investments in machine learning for the chemical sciences and engineering, both to advance the field in these areas, and to help position the chemical sciences field to best avail itself of the broad agency opportunities for research support that are emerging. We are enthusiastic about the potential for machine learning to produce useful fundamental and practical insights in chemical research.” -Richard N. Zare and Matthew V. Tirrell, Camille and Henry Dreyfus Foundation, Scientific Affairs Committee of the Board of Directors.

Below are some examples of areas this program may support:

  • molecular synthesis, including mechanisms, techniques, and applications
  • theory, computation, physical properties of molecules or materials
  • rates and mechanisms of new chemical processes
  • new or improved materials and materials applications
  • postdoctoral support for collaborations that combine chemical science research with machine learning expertise
  • collaborative sabbaticals, extended visits and meetings
  • education, e.g., new courses, seminar series, MOOCs,…
  • public libraries of chemistry and chemical engineering data for use in machine learning

Note that proposals are not restricted to the areas described above.

Additional details are available at the Foundation website.

NSF Scholarships in Science, Technology, Engineering, and Mathematics Program (S-STEM)

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Full Proposal Deadline: March 25, 2020

Program Solicitation: 20-526

Synopsis:

A well-educated science, technology, engineering, and mathematics (STEM) workforce is a significant contributor to maintaining the competitiveness of the U.S. in the global economy. The National Science Foundation (NSF) Scholarships in Science, Technology, Engineering, and Mathematics (S-STEM) program addresses the need for a high quality STEM workforce in STEM disciplines supported by the program and for the increased success of low-income academically talented students with demonstrated financial need who are pursuing associate, baccalaureate, or graduate degrees in science, technology, engineering, and mathematics (STEM).

Recognizing that financial aid alone cannot increase retention and graduation in STEM, the program provides awards to Institutions of Higher Education (IHEs) to fund scholarships and to advance the adaptation, implementation, and study of effective evidence-based curricular and co-curricular activities that support recruitment, retention, transfer (if appropriate), student success, academic/career pathways, and graduation in STEM. The S-STEM program encourages collaborations among different types of participating groups, including but not limited to partnerships among different types of institutions; collaborations of STEM faculty and institutional, educational, and social science researchers; and partnerships among institutions of higher education and business, industry, local community organizations, national labs, or other federal or state government organizations, if appropriate.

The program seeks to 1) increase the number of low-income academically talented students with demonstrated financial need obtaining degrees in S-STEM eligible disciplines and entering the workforce or graduate programs in STEM; 2) improve the education of future scientists, engineers, and technicians, with a focus on low-income academically talented students with demonstrated financial need; and 3) generate knowledge to advance understanding of how interventions or evidence-based curricular and co-curricular activities affect the success, retention, transfer, academic/career pathways, and graduation of low-income students in STEM.

S-STEM Eligible Degree Programs:

  • Associates of Arts and Associates of Science
  • Bachelor of Arts and Bachelor of Science
  • Master of Arts and Master of Science
  • Doctoral

S-STEM Eligible Disciplines

  • Biological sciences (except medicine and other clinical fields)
  • Physical sciences (including physics, chemistry, astronomy and materials sciences)
  • Mathematical sciences
  • Computer and information sciences
  • Geosciences
  • Engineering
  • Technology fields associated with the disciplines above (e.g. biotechnology, chemical technology, engineering technology, information technology)

NSF Understanding the Rules of Life: Epigenetics

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Program Solicitation: NSF 20-512

Letter of Intent Due Dates (required): December 20, 2019

Full Proposal Deadline: February 6, 2020

Understanding the Rules of Life (URoL): Predicting Phenotype is one of NSF’s 10 Big Ideas and is focused on predicting the set of observable characteristics (phenotype) from the genetic makeup of the individual and the nature of its environment. The development of new research tools has revolutionized our ability to manipulate and investigate the genome and to measure multiple aspects of biological, physical, and social environments. The opportunity now is to assimilate this new information into causal, mechanistic, and/or predictive relationships among the genomic and epigenetic makeup, the environmental experience, and the phenotypic characteristics of biological systems. These relationships are the basis for the Rules of Life – the theoretical constructs that explain and predict the characteristics of living systems, from molecular and sub-cellular components, to cells, whole organisms, communities and biomes.

Successful projects of the URoL:Epigenetics Program are expected to use complementary, interdisciplinary approaches to investigate how epigenetic phenomena lead to emergent properties that explain the fundamental behavior of living systems. Ultimately, successful projects should identify general principles (“rules”) that underlie biological phenomena within or across scales of size, complexity (e.g., molecular, cellular, organismal, population) and time (from sub-second to geologic) in taxa from anywhere within the tree of life, including humans. URoL:Epigenetics projects must integrate perspectives and research approaches from more than one research discipline (e.g., biology, chemistry, computer science, engineering, geology, mathematics, physics, social and behavioral sciences). The interdisciplinary scope of URoL:Epigenetics projects also provides unique training and outreach possibilities to train the next generation of scientists in a diversity of approaches and to engage society more generally.

The URoL:Epigenetics Program offers two submission tracks: Track 1 – for projects with a total budget of up to $500,000 and an award duration of up to 3 years, and Track 2 – for projects with a total budget of up to $3,000,000 and award duration of up to 5 years.

The URoL:Epigenetics Program includes participation from the Directorates for Biological Sciences (BIO), Computer and Information Science and Engineering (CISE), Education and Human Resources (EHR), Engineering (ENG), Geosciences (GEO), Mathematical and Physical Sciences (MPS), Social, Behavioral, and Economic Sciences (SBE), and the Office of Integrative Activities (OIA) at the National Science Foundation. The goals of the program are to foster crosscutting, interdisciplinary research on the epigenetic regulation of organismal phenotypes that integrates perspectives and research approaches from more than one of these directorates. This program aims to support projects that would not traditionally be supported through regular core programs of the participating directorates and offices. To that end, all proposals submitted to this program should identify two or more diverse and complementary disciplines involved, and how the project integrates them via interdisciplinary approaches.

Appropriate approaches for URoL:Epigenetics projects include, but are not limited to:

  • The use of cellular engineering and physical-chemical approaches to manipulate molecular and cellular components to understand cellular and organismal responses to environmental change;
  • Investigation of physical, and chemical interactions that underlie epigenetic changes in the structure, packing, function, and dynamics of DNA, RNA and proteins;
  • Development/ application of artificial intelligence to identify patterns that reveal the underlying principles to explain how environmental influences on the epigenome lead to phenotypic outcomes;
  • Leveraging of existing experimental, observational or survey datasets to model or analyze relationships among environment, epigenetic processes, and phenotype, including across populations, species, or ecosystems;
  • The use of interdisciplinary biological, mathematical, computational, social and behavioral science methods to predict relationships among epigenetic mechanisms; physical, physiological and behavioral phenotypes; physical, social and built environments; and emergent properties at organismal and supra-organismal levels.

NSF Addressing Systems Challenges through Engineering Teams (ASCENT)

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Program Solicitation: NSF 20-511

Letter of Intent Due Date (required): January 7, 2020

Full Proposal Deadline: February 19, 2020

Program Synopsis:

The Electrical, Communications and Cyber Systems Division (ECCS) supports enabling and transformative engineering research at the nano, micro, and macro scales that fuels progress in engineering system applications with high societal impact. This includes fundamental engineering research underlying advanced devices and components and their seamless penetration in power, controls, networking, communications or cyber systems. The research is envisioned to be empowered by cutting-edge computation, synthesis, evaluation, and analysis technologies and is to result in significant impact for a variety of application domains in healthcare, homeland security, disaster mitigation, telecommunications, energy, environment, transportation, manufacturing, and other systems-related areas. ECCS also supports new and emerging research areas encompassing 5G and Beyond Spectrum and Wireless Technologies, Quantum Information Science, Artificial Intelligence, Machine Learning, and Big Data.

ECCS, through its ASCENT program, offers its engineering community the opportunity to address research issues and answer engineering challenges associated with complex systems and networks that are not achievable by a single principal investigator or by short-term projects and can only be achieved by interdisciplinary research teams. ECCS envisions a connected portfolio of transformative and integrative projects that create synergistic links by investigators across its three ECCS clusters: Communications, Circuits, and Sensing-Systems (CCSS), Electronics, Photonics and Magnetic Devices (EPMD), and Energy, Power, Control, and Networks (EPCN), yielding novel ways of addressing challenges of engineering systems and networks. ECCS seeks proposals that are bold and ground-breaking, transcend the perspectives and approaches typical of disciplinary research efforts, and lead to disruptive technologies and methods or enable significant improvement in quality of life.

ASCENT supports fundamental research projects involving at least three collaborating PIs and co-PIs, up to four years in duration, with a total budget between $1 million and $1.5 million.

  • ASCENT supports fundamental research projects involving at least three collaborating PIs and co-PIs, up to four years in duration, with a total budget between $1 million and $1.5 million.
  • ASCENT proposals must highlight the engineering leadership focus of the proposal within the scope of ECCS programs.
  • ASCENT proposals must articulate a fundamental research problem with compelling intellectual challenge and significant societal impact. The topic at the heart of the proposal must lie within the scope of at least one of the three ECCS clusters (CCSS, EPMD, EPCN). Research proposals spanning multiple clusters are highly encouraged.
  • ASCENT proposals must demonstrate the need for a concerted research effort by an integrated and interdisciplinary team, and strongly justify the interdisciplinary nature of the proposed work. They should include a timeline for research activities, with a strong justification of the explicit mechanisms for frequent communication between team members and effective assessment to achieve proposed goals.