Physical Sciences & Engineering

Limit: 5 // Tickets Available: 4

F. Baker ( Nutritional Sciences and Wellness)

 A maximum of 5 applications will be accepted from 1 institution in any 1 grant cycle.

The INSPIRE Research Challenge will prioritise innovative, bold and creative proposals with the potential to catalyse rapid and impactful advances in cancer prevention, treatment and survivorship.

This is a new grant call aimed at early career investigators. It will run in parallel with our existing grant programmes and is open to investigators worldwide.

The programme is open to early career individuals – defined as not less than 2 years, but not more than 6 years post-doctoral degree (PhD or MD research).

Applicants must be employed on a research contract within a department at a research institution affiliated with a university or medical school.

Proposed projects must have direct relevance to cancer prevention, treatment or survivorship and may address any or all stages of the cancer journey.

Proposals should address modifiable factors including both lifestyle – such as diet, nutrition, physical activity – and environmental factors – such as pollution/contaminants and pathogens.

Particular priority will be given to novel exposures including stress, sleep and host factors such as immune function.

In Review // Limit: 4 * // Tickets Available: 4 

Internal deadline has been extended to June 26, 2024.

*Number of proposals allowed per organization: Four.

• No more than two submissions in Track 1 (Track 1 MRI proposals are those that request funds from NSF greater than or equal to $100,000 and less than $1,400,000).
• No more than one submission in Track 2 (Track 2 MRI proposals are those that request funds from NSF greater than or equal to $1,400,000 up to and including $4,000,000). 
• Track 3: Track 3 MRI proposals are those that request funds from NSF greater than or equal to $100,0001 and less than or equal to $4,000,000 that include the purchase, installation, operation, and maintenance of equipment and instrumentation to conserve or reduce the consumption of helium. Institutions may submit no more than one Track 3 proposal. Submission of a Track 3 proposal does not impact limits that apply for Track 1 and Track 2 proposals.

The Major Research Instrumentation (MRI) Program (MRI Program Website) serves to increase access to multi-user scientific and engineering instrumentation for research and research training in our Nation's institutions of higher education and not-for-profit scientific/engineering research organizations. An MRI award supports the acquisition of a multi-user research instrument that is commercially available through direct purchase from a vendor, or for the personnel costs and equipment that are required for the development of an instrument with new capabilities, thereby advancing instrumentation capabilities and enhancing expertise for instrument design and fabrication at academic institutions. MRI instruments are, in general, too costly and/or not appropriate for support through other NSF programs.

MRI provides support to acquire critical research instrumentation without which advances in fundamental science and engineering research may not otherwise occur. MRI also provides support to obtain next-generation research instruments by developing instruments with new capabilities that open new opportunities to advance the frontiers in science and engineering research. Additionally, an MRI award is expected to enhance research training of students who will become the next generation of instrument users, designers and builders.

An MRI proposal may request from NSF up to $4 million for either acquisition or development of a research instrument. Each performing organization may submit in revised "Tracks" as defined below, with no more than two (2) submissions in Track 1 and no more than one (1) submission in Track 2. For the newly defined Track 3, no more than one (1) submission per competition is permitted.  As a result, it is now possible for an institution to submit up to four MRI proposals within the Track limits as described above.

• Track 1: Track 1 MRI proposals are those that request funds from NSF greater than $100,000[1] and less than $1,400,000.
• Track 2: Track 2 MRI proposals are those that request funds from NSF greater than or equal to $1,400,000 up to and including $4,000,000.
• Track 3: Track 3 MRI proposals are those that request funds from NSF greater than or equal to $100,000[1] and less than or equal to $4,000,000 that include the purchase, installation, operation, and maintenance of equipment and instrumentation to conserve or reduce the consumption of helium. Track 3 is an institutionally coordinated submission and won't be part of the internal competition.

  Institutions may submit no more than one Track 3 proposal. Submission of a Track 3 proposal does not impact limits that apply for Track 1 and Track 2 proposals.

Cost sharing requirements for new awards in the MRI Program are waived for a period of 5 years beginning with the FY 2023 MRI competition. Institutional submission limits for Track 1, Track 2 and Track 3 proposals remain.

The MRI Program especially seeks broad representation of groups, institutions, and geographic regions that are underrepresented in STEM disciplines. Proposals from women, underrepresented minorities, persons with disabilities and early-career PIs are encouraged, as are proposals that benefit early-career researchers and proposals with PIs from geographically underserved regions, including EPSCoR jurisdictions. Additionally, proposals are encouraged from under-resourced institutions, including from emerging research institutions, where MRI can significantly build capacity for research

No Applicants  // Limit: 1 // Tickets Available: 1 

Limit on Number of Proposals per Organization: 1

The purpose of this solicitation is to broaden participation in innovation ecosystems that advance key technologies (e.g., advanced manufacturing, advanced wireless, artificial intelligence, biotechnology, quantum information science, semiconductors, novel materials, and microelectronics) by supporting capacity-building efforts at institutions of higher education (IHEs) interested in growing external partnerships. Creation of this program is motivated by the commitment of the National Science Foundation (NSF), including the newly established NSF Directorate for Technology, Innovation and Partnerships (TIP), to accelerate scientific and technological innovation nationwide and empower all Americans to participate in the U.S. research and innovation enterprise. Establishing more inclusive innovation ecosystems will require broad networks of partners working together in support of use-inspired research; the translation of such research to practice or commercial application; and the development of a skilled workforce. The NSF Regional Innovation Engines (NSF Engines) program, housed within the TIP Directorate, seeks to grow inclusive innovation ecosystems around the country. Growing such ecosystems will only be successful if all interested IHEs within a region are able to participate and contribute their unique set of skills and expertise. However, NSF appreciates many Minority-Serving Institutions (MSIs), Predominantly Undergraduate Institutions (PUIs), and two-year institutions lack the infrastructure and resources needed to grow external partnerships and effectively contribute to innovation ecosystems, and thus are currently unable to effectively engage with the NSF Engines program.

This solicitation aims to provide MSIs, PUIs, and two-year institutions with limited or no research capacity (see Section IV for details) with the support necessary to become equitable partners with teams competing under the current and subsequent NSF Engines program funding opportunities. Importantly, participation in this solicitation is not predicated on an existing partnership with organizations submitting an NSF Engines proposal. Rather, it is expected that the capacity-building efforts funded under this solicitation will provide significant innovation partnership opportunities irrespective of future participation in an NSF Engine.

No Applicants  // Limit: 5 // Tickets Available: 5 

Applicant institutions are limited to both: 

• No more than a total of five pre-applications or applications as the lead institution in a single- or multi-institutional team.
• No more than one pre-application or application for each PI at the applicant institution.

Extreme-scale science recognizes that disruptive technology changes are occurring across science applications, algorithms, computer architectures and ecosystems. Recent reports point to emerging trends and advances in high-end computing, massive datasets, visualization, and artificial intelligence on increasingly heterogeneous architectures. Significant innovation will be required in the development of effective paradigms and approaches for realizing the full potential of scientific computing from emerging technologies. Proposed research should not focus on a specific science use case, but rather on creating the body of knowledge and understanding that will inform future advances in extreme-scale science. Consequently, the funding from this FOA is not intended to incrementally extend current research in the area of the proposed project. It is expected that the proposed projects will significantly benefit from the exploration of innovative ideas or from the development of unconventional approaches.

Submit ticket request  // Limit: 1 // Tickets Available: 1

SIA provides funding for innovative science in both basic and clinical neuroscience. The objective of the SIA is to support projects that may be too innovative and speculative for traditional funding sources but still have a high likelihood of producing important findings.

Funding Preferences:

• Funding is to be directed at projects that may be too innovative and speculative for traditional funding sources but still have a high likelihood of producing important findings. This should be a unique project for senior investigators who are encouraged to stretch their imagination into areas that can substantially change an area of research.
• Funding of research projects that will likely lead to successful grant applications with NIH and other public and private funding entities.

*This internal competition is run on an anticipated deadline. New guidelines will posted in early April, applicants will be informed of any relevant updates. 

Submit ticket request   // Limit: One nomination per College

Major divisions (e.g., College of Arts and Sciences, Medical School) of an institution may nominate only one applicant each year.

The William T. Grant Scholars Program supports career development for promising early-career researchers. The program funds five-year research and mentoring plans that significantly expand researchers’ expertise in new disciplines, methods, and content areas.

The William T. Grant Foundation’s mission is to support research to improve the lives of young people ages 5-25 in the United States. They pursue this mission by supporting research within two focus areas. Researchers interested in applying for a William T. Grant Scholars Award must select one focus area: Reducing Inequality or Improving the Use of Research Evidence

Applicants should have a track record of conducting high-quality research and an interest in pursuing a significant shift in their trajectories as researchers. Recognizing that early-career researchers are rarely given incentives or support to take measured risks in their work, this award includes a mentoring component, as well as a supportive academic community.

Awards are based on applicants’ potential to become influential researchers, as well as their plans to expand their expertise in new and significant ways. The application should make a cohesive argument for how the applicant will expand his or her expertise. The research plan should evolve in conjunction with the development of new expertise, and the mentoring plan should describe how the proposed mentors will support applicants in acquiring that expertise. Proposed research plans must address questions that are relevant to policy and practice in the Foundation’s focus areas. Award recipients are designated as William T. Grant Scholars. Each year, four to six Scholars are selected and each receives up to $350,000, distributed over five years.

Areas of Interest

The Foundation supports research in two distinct focus areas: 1) Reducing inequality in youth outcomes, and 2) Improving the use of research evidence in decisions that affect young people.  Proposed research must address questions that align with one of these areas.

Focus Area: Reducing Inequality

In this focus area, we support studies that aim to build, test, or increase understanding of programs, policies, or practices to reduce inequality in the academic, social, behavioral, or economic outcomes of young people, especially on the basis of race, ethnicity, economic standing, language minority status, or immigrant origins.

Focus Area: Improving the Use of Research Evidence

While an extensive body of knowledge provides a rich understanding of specific conditions that foster the use of research evidence, we lack robust, validated strategies for cultivating them. What is required to create structural and social conditions that support research use? What infrastructure is needed, and what will it look like? What supports and incentives  foster research use? And, ultimately, how do youth outcomes fare when research evidence is used? This is where new research can make a difference. 

Eligibility

Applicants must have received their terminal degree within seven years of submitting their application. We calculate this by adding seven years to the date the doctoral degree was conferred. In medicine, the seven-year maximum is dated from the completion of the first residency.

Applicants must be employed in career-ladder positions. For many applicants, this means holding a tenure-track position in a university. Applicants in other types of organizations should be in positions in which there is a pathway to advancement in a research career at the organization and the organization is fiscally responsible for the applicant’s position. The award may not be used as a post-doctoral fellowship.

Institutionally Coordinated // Limit: 1 // L. Folks (Semiconductor Strategy)

Please contact the Center for Semiconductor Manufacturing (CSM)  for more information. 

Eligible applicants can only submit one concept plan paper under this NOFO.

Program Priorities

“Advanced packaging” refers to many chips with diverse functions assembled tightly together on a substrate in two or three dimensions at extremely fine dimensions. This method achieves function, performance, and power savings far greater than can be achieved with conventionally packaged chips on a printed circuit board. Recent advances in artificial intelligence, for example, would not be possible without advanced packaging.

Advanced packaging can be a transformative capability that helps U.S. manufacturers compete globally, but there are many technological challenges to solve. The CHIPS Research and Development Office has established the CHIPS National Advanced Packaging Manufacturing Program to address these challenges, including:

• How do we design and assemble chips so tightly that they behave like a single traditional large chip, but with the production efficiency and cost savings of advanced packaging?

• How do we supply power to and dissipate heat from such tightly coupled assemblies?

• How do we test and repair such complex assemblies?

• How do we ensure their reliability since traditional methods of visual inspection cannot be performed on such small, tightly packaged dimensions?

The CHIPS NAPMP will enable the development of a robust domestic advanced packaging ecosystem by:

• Establishing an advanced packaging piloting facility (or facilities) that accelerates the transfer of innovations in packaging, equipment, and process development into manufacturing;

• Driving the development of digital tools to reduce the time and cost of advanced packaging engineering; and,

• Establishing and supporting partnerships among industry, academia and training entities, and government to contribute to an advanced packaging workforce.

The six priority research investment areas of the CHIPS NAPMP are:

• Materials and substrates

• Equipment, tools, and processes

• Power delivery and thermal management for advanced packaging assemblies

• Photonics and connectors that communicate with the outside world

• A chiplet ecosystem

• Co-design of multi-chiplet systems with automated tools

 Limit: 1 // J. Denno (Cyber Convergence Center) 

NCAE-Cs may submit one proposal which provides a response to one or two focus areas identified below. The total proposal submission per NCAE-C may not exceed $250,000.00 ($125,000.00 for each project). Any proposals exceeding this limit will automatically be rejected. 

 Universities designated under the National Centers of Academic Excellence in Cybersecurity (NCAE-C)  which includes  National Centers of Academic Excellence in Cyber Defense Education and  National Centers of Academic Excellence – Research,  and  National Centers of Academic Excellence – Cyber Operations  (hereinafter referred to as NCAE-Cs) 

The Department of Defense (DoD) Cyber Scholarship Program (CySP) is authorized by Chapter 112 of title 10, United States Code, Section 2200. The purpose of the program is to support the recruitment of new cyber talent and the retention of current highly skilled professionals within the DoD cyber workforce. Additionally, this program serves to enhance the national pipeline for the development of cyber personnel by providing grants to institutions of higher education. The DoD Cyber and Digital Services Academy (DCDSA) will partner with the DoD CySP/DCDSA in 2024. 

Regionally and nationally accredited U.S. institutions of higher education, designated under the National Centers of Academic Excellence in Cybersecurity (NCAE-C) and known as National Centers of Academic Excellence in Cyber Defense, Research, and/or Cyber Operations (hereinafter referred to as NCAE-Cs) are invited to submit proposals for developing and managing a full-time, institution-based, grant-funded scholarship program in cyber-related disciplines for Academic Year 2024- 2025. NCAE-Cs may propose collaboration with other accredited institutions, and are encouraged to include accredited post-secondary minority institutions. NCAE-Cs must be in good standing with the NCAE-C Program Office and not be delinquent on any required documentation by the NCAE-C Program Office. 

Consistent with 10 U.S.C. 2200b, NCAE-C proposals to this solicitation may also request modest collateral support for purposes of institutional capacity building to include faculty development, laboratory improvements, and/or curriculum development, in cyber-related topics to providing a strong foundation for a DoD CySP/DCDSA/DCDSA. [Special note: Requirements for proposing modest capacity building support are detailed in ANNEX II.] 

To continue the development of a strong foundation for recruitment scholarship program during the Academic Year 2024-2025, students falling into one of the following categories may apply: 

• • Rising second-year NCAE-C Community College students who will be transitioning into a bachelor’s degree program at a 4-year NCAE-C 
• • Current individuals who hold a non-cyber related bachelor’s or graduate degree, cross training into cyber by pursuing an associate’s degree. 
• • Juniors or Seniors pursuing a bachelor's degree (Sophomore's promoting to a Junior in Fall 2024 are eligible to apply) 
• • Students in their first or second year of a master's degree; or 
• • Students pursuing doctoral degrees. 

Traditional National Guardsmen and reservists are eligible to apply under the recruitment program. Current DoD civilians and active duty military members are only eligible for the retention program. Applications for the retention program are processed under a different memorandum. NCAE-C are not required to forward or handle retention student applications. These individuals may also participate in the retention community college program. 

Reserve Officer’s Training Corps (ROTC) participants are eligible to apply as long as they do not currently have a service obligation with their ROTC activities. 

Employees of non-DoD federal agencies are ineligible for either program. 

No Applicants // Limit: 2 // Tickets Available: 2 

An applicant/institution may submit no more than two (2) applications in response to this announcement.

The U.S. Nuclear Regulatory Commission (NRC) is an independent agency, established by the Atomic Energy Act of 1954, as amended, tasked with licensing, and regulating the Nation’s civilian use of byproduct, source, and special nuclear material to ensure adequate protection of public health and safety, to promote the common defense and security, and to protect the environment.

The program provides funding to support research and development (R&D) for nuclear science, engineering, technology, and related disciplines to develop a workforce capable of supporting the design, construction, operation, and regulation of nuclear facilities and the safe handling of nuclear materials. University R&D activities provide an opportunity to complement current, ongoing NRC-led research.

More specifically, the program shall be used to provide financial assistance for R&D projects relevant to the programmatic mission of the NRC referenced above, with an emphasis on providing financial assistance with respect to research, development, demonstration, and commercial application of new and advanced nuclear technologies. New this year, nontechnical research will be considered under this announcement (for example, projects that would foster the development of innovative community engagement strategies, including incorporation of principles of equity and environmental justice).

Award of these grants is contingent upon the availability of funds. The estimated budget for this program is $6,000,000.00. The NRC anticipates that there maybe up to twelve (12) grants awarded as a result of this NOFO. The number of awards depends on the number, quality, duration, and costs of the applications received.

This is a three (3)-year program. Research and development funds may be requested up to $500,000.00 total costs (direct costs and facilities and administrative costs) for the project period.

 Limit: 15* // Tickets Available: 10

PO Confirmed DOE will accept 15 applications, 3 for each of the 5 research areas.

L. Xuan ( Computer science) - Research Area 2: AI Innovations for Scientific Knowledge Synthesis and Software Development
M. Chertkov (Pharmacy) - Research area 3: AI Innovations for Computational Decision Support of Complex Systems. 
R. Tandon (Electrical & Computer Engineering) // Subaward Lawrence Berkeley National Lab - Research Area 4: Federated and privacy-preserving for foundation and other AI models for science.
S. Salehi (Electrical and Computer Engineering) - Research Area 5: The Co-Design of Energy-Efficient AI Algorithms and Hardware Architectures. 
M. Krunz (Electrical & Computer Engineering) -  Research Area 5: The Co-Design of Energy-Efficient AI Algorithms and Hardware Architectures.
T. Adegbija (Electrical & Computer Engineering) -  Research Area 5: The Co-Design of Energy-Efficient AI Algorithms and Hardware Architectures.

The DOE SC program in Advanced Scientific Computing Research (ASCR) hereby announces its interest in basic computer science and applied mathematics research in the fundamentals of Artificial Intelligence (AI) for science. Specifically, advancements in this area are sought that can enable the development of: 

• Foundation models for computational science;
• Automated scientific workflows and laboratories;
• Scientific programming and scientific-knowledge-management systems;
• Federated and privacy-preserving training for foundation and other AI models for science; and
• Energy-efficient AI algorithms and hardware for science.