
March 3, 2022
Release
Department of Defense Announces University Research Funding Awards
The Department of Defense announced $195 million in Multidisciplinary University Research Initiative (MURI) awards for the Fiscal Year 2022 (FY22) competition to 28 research teams pursuing basic research spanning multiple scientific disciplines. These grants will be provided to teams located across 63 U.S. academic institutions for five years each, subject to satisfactory research progress and the availability of funds.
"By supporting teams whose members have diverse sets of expertise, the MURI program acknowledges that the complexities of modern science and engineering challenges often intersect more than one discipline and require creative and diverse approaches to tackle these problems. This cross-fertilization of ideas can accelerate research progress to enable more rapid R&D breakthroughs and hasten the transition of basic research findings to practical application," said Dr. Bindu Nair, Director, Basic Research Office, Office of the Undersecretary of Defense for Research and Engineering (OUSD (R&E). "It is a program that signifies a legacy of scientific impact and remains a cornerstone of the DoD's basic research portfolio."
Since its inception in 1985, the tri-Service MURI program has supported teams of investigators with the hope that collective insight from multiple disciplines could facilitate the growth of newly emerging technologies to address the Department's unique problem sets. The highly-competitive MURI program, which complements the Department's single-investigator basic research grants, has made immense contributions to both defense and society at large. Notable examples include advances in development of new theories, algorithms, and automated toolsets to speed synthesis of novel energetics for the DoD, including energetics; modeling and tools to understand and predict population migration due to naturally occurring and human-caused events; and development of novel materials with unprecedented optical, thermal, and mechanical properties for a wide array of DoD application. These and other important technological advances from the MURI program have had a significant impact on current and future military capabilities as well as multiple applications in the commercial sector.
For the FY22 competition, the Army Research Office, the Air Force Office of Scientific Research, and the Office of Naval Research solicited proposals in 26 topic areas of strategic importance to the Department. From a merit-based review of approximately 340 proposals received, a panel of experts narrowed the proposals to a subset, from which the 28 final awards were selected.
About USD(R&E)
The Under Secretary of Defense for Research and Engineering (USD(R&E) is the Chief Technology Officer of the Department of Defense. The USD(R&E) champions research, science, technology, engineering, and innovation to maintain the United States military's technological advantage. Learn more at www.cto.mil, follow us on Twitter @DoDCTO, or visit us on LinkedIn at https://www.linkedin.com/company/ousdre.
FY2022 Multidisciplinary University Research Initiative (MURI) - Selected Projects
Topic Number | Topic Name | Project Name | Sponsoring Office | Primary University Subaward Universities (1) | University Location (state) | Principal Investigator |
---|---|---|---|---|---|---|
1 | Social Network-Transcendent Behavioral Dynamics | Learning Dynamics and Detecting Causal Pathways in Coupled Online- Offline Systems | AFOSR | University of California, Los Angeles University of California, Berkeley Indiana University University of Southern California University of Colorado, Boulder |
CA CA IN CA CO |
P. Jeffrey Brantingham |
2 | Microelectronic Test Science Exploiting Latent Energy and Electromagnetic Radiation | Comprehensive Minimally/non- invasive Multifaceted Assessment of Nano-/ microelectronic Devices (CoMMAND) | AFOSR | State University of New York at Buffalo Columbia University Boston University University of Maryland, College Park The University of Arizona |
NY NY MA MD AZ |
Paras N. Prasad |
3 | Cavity Molecular Polaritons | MURI: Polariton Chemistry | AFOSR | University of California, San Diego University of California, Merced City University of New York Pennsylvania State University |
CA CA NY PA |
Wei Xiong |
4 | Effects of Radiation Damage on Performance of Wide-Bandgap Electronics | REDESIGN: Radiation Effects preDiction through Experimentally validated Simulation of Gallium Nitride | AFOSR | Pennsylvania State University Carnegie Mellon University University of Iowa University of Central Florida |
PA PA IA FL |
Rongming Chu |
5 | Understanding Neural Systems Integration for Competent Autonomy in Decision and Control | FLAP: Fast, Lexicographic Agile Integrates Decision and Control in a Spike-Resolved, Sensorimotor Program | AFOSR | Georgia Institute of Technology University of Washington Cornell University Duke University Florida International University |
GA WA NY NC FL |
Simon Sponberg |
6 | Nonlinear Optical Material Design with Extreme Interband Nonlinearities | Atomic-scale Manipulations of Interband Optical Nonlinearities - (AtoMs➝IONs) | AFOSR | University of Texas at Austin Harvard University City University of New York, ASRC University of California, Irvine |
TX MA NY CA |
Seth Banks |
7 | Synthetic Quantum Matter | Reimagining Atoms and Photons in SYnthetic, DYnamical, and INteracting Quantum matter (RAPSYDY IN Q) | AFOSR | Pennsylvania State University University of Illinois at Urbana-Champaign University of Maryland, College Park Stanford University California Institute of Technology |
PA IL MD CA CA |
Mikael Rechtsman |
8 | Composability of Synthetic Biological Circuits | Rules of Composition in Synthetic Biology Across Scales of Complexity: Theory and Tools | AFOSR | Massachusetts Institute of Technology California Institute of Technology Northeastern University |
MA CA MA |
Domitilla Del Vecchio |
9 | Bio-architected Responsive Materials with 3D Nanoscale Order | 3D Nanomaterial Architectures with Programmable Reconfiguration States and Functions | ARO | Columbia University Johns Hopkins University University of Michigan University of Wisconsin-Madison University of Sydney (2) University of Melbourne (2) Swinburne University of Technology (2) |
NY MD MI WI AUS AUS AUS |
Oleg Gang |
10 | Topological Seeds of Complex Response in Materials | Programming Multistable Origami and Kirigami Structures via Topological Design | ARO | Harvard University Georgia Institute of Technology University of Pennsylvania |
MA GA PA |
Katia Bertoldi |
11 | Connectivity and Transport in Disordered Hyperuniform Networks | Transport in Disordered Hyperuniform Systems and Networks | ARO | Princeton University Arizona State University The Pennsylvania State University |
NJ AZ PA |
Salvatore Torquato |
12 | Irregular Metamaterial Networks | Disorder Engineering: A Geometry- Enhanced Network Theory for Irregular Metamaterials | ARO | California Institute of Technology University of Chicago Northwestern University Massachusetts Institute of Technology University of California, Irvine |
CA IL IL MA CA |
Chiara Daraio |
13 | Uncovering the Underlying Neurobiological Mechanisms of Cognitive Fatigue | Understanding and Predicting Cognitive Fatigue across Multiple Timescales, Distinct Aspects of Cognition, and Different Individuals with Multiscale Whole Cortex Models | ARO | University of Michigan University of Arizona Washington State University |
MI AZ WA |
Daniel Forger |
14 | Gut-Neuronal Signaling Through Polymeric Mucin via Chemical Probes and Imaging | Mucin-mimetic Interventions to Modulate the Gut-Brain Axis | ARO | Massachusetts Institute of Technology Tufts University Boston College Columbia University |
MA MA MA NY |
Katharina Ribbeck |
15 | ELECTROBIOLOGY: Electronic Control of Biological Communication | Faster, More Efficient, and Hybrid Computation in Microbial Bioelectronic Systems | ARO | Rice University Tufts University Virginia Tech University |
TX MA VA |
Caroline Ajo-Franklin |
16 | Novel Routes to Majorana Qubits for Topologically- Protected Quantum Information | Epitaxial phase-biased Josephson junctions | ONR | New York University Yale University University at Buffalo - SUNY University of Maryland, College Park University of Pittsburgh University of Illinois, Urbana-Champaign |
NY CT NY MD PA IL |
Javad Shabani |
17 | Molecular Doping of Organic Electronic Materials | Next Generation Molecular Dopants for Organic Electronics: From Fundamentals to New Device Concepts | ONR | University of North Carolina at Chapel Hill North Carolina State University University of Washington Iowa State University |
NC NC WA IA |
Wei You |
18 | Learning from Hearing | Neurobehavioral, Physiological, and Computational Processes of Auditory Object Learning in Mammals | ONR | Carnegie Mellon University New College of Florida University of Massachusetts - Dartmouth University of Washington University of Michigan Woods Hole Oceanographic Institution |
PA FL MA WA MI MA |
Barbara Shinn- Cunningham |
Learning to Mine a Soundscape | ONR | Johns Hopkins University University of Maryland, College Park Carnegie Mellon University |
MD MD PA |
Mounya Elhilali | ||
19 | Hydrodynamics of Fish Schooling | Revealing the Hydrodynamic Principles of Three-dimensional Fish Schools; From Biology to Schooling Robotics | ONR | Lehigh University University of Virginia Harvard University |
PA VA MA |
Keith Moored |
20 | Self-learning for Real-world Perception | Intentional multi-modal self-learning to perceive and understand the real world | ONR | Massachusetts Institute of Technology Stanford University |
MA CA |
Leslie Kaelbling |
Self-Learning Perception through Interaction with the Real World | ONR | University of California, Berkeley New York University Carnegie Mellon University |
CA NY PA |
Pieter Abbeel | ||
21 | Fundamental Non-equilibrium Processes in Weakly Ionized Hypersonic Flows | Development of Validated Hypersonic Plasma Kinetics Models Including Atomic Excitation | ONR | University of Colorado Boulder Stanford University University of New Mexico Ohio State University |
CO CA NM OH |
Iain Boyd |
22 | Ab Initio Understanding of Detonation Based Combustion in Multiphase Mixtures | Multiphase Detonation of Liquid Aeropropulsion Fuels | ONR | Stanford University University of Connecticut University of Southern California University of Michigan University of Central Florida University of Virginia |
CA CT CA MI FL VA |
Hai Wang |
23 | Bioinspired Design of Energy- Self Sufficient Multi-functional Soft Material Systems | SERPENT: Self EneRgetic Propulsion ENTity | ONR | Cornell University University of California, Los Angeles University of California, San Diego United States Naval Academy |
NY CA CA MD |
Robert Shepherd |
24 | Systems-Level Foundations for Agile, Dynamic, and Ad Hoc Human Autonomy Teams | HUDDLE: Human Autonomy Teaming in Uncertain and Dynamic Environments | ONR | University of California, San Diego Pennsylvania State University Princeton University University of California, Santa Barbara Michigan State University University of Notre Dame United States Military Academy |
CA PA NJ CA MI IN NY |
Laurel Riek |
25 | Environmental DNA-based Monitoring of the Marine Environment (ED- MON) | MMARINeDNA: Marine MAmmal Remote detection via INnovative environmental DNA sampling | ONR | University of Washington University of California, San Diego |
WA CA |
Ryan Kelly |
26 | Flat Bands Beyond van der Waals Materials | Topological Flat Bands for Correlated Electron Systems | AFOSR | University of California, Santa Barbara University of California, Berkeley University of California, San Diego |
CA CA CA |
Susanne Stemmer |
(1) Team member institutions are subject to change at the discretion of the primary institution.
(2) Member of the US/AUS MURI Collaboration. AUS partners do not receive US MURI funding.
https://www.defense.gov/News/Releases/Release/Article/2953234/
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