Materials Interfaces Research and Access-(MIRA-PREM)- an NSF PREM Center
Northern Arizona University, Flagstaff AZ
Investigators
Abstract
Northern Arizona University is a Hispanic Serving Institution (HSI). NAU’s Center for Materials Interfaces in Research and Applications (¡MIRA!) supports the Applied Physics and Materials Science (APMS), Informatics and Computing, and Mechanical Engineering PhD programs and multiple undergraduate research and education programs across the NAU STEM enterprise. The ¡MIRA-PREM! partnership consisting of NAU, Pasadena City College (PCC), and the University of Texas at Austin (UT-Austin) Center for Dynamics and Control of Materials (CDCM)-NSF-Materials Research Science and Engineering Center (MRSEC) is designed to: 1) create clear, focused, high-impact materials research projects with supportive research teams, and 2) community-reflective education opportunities. It is imperative that materials research is accessible, and future materials research workforce and leadership- from entry level to the most senior positions- are reflective ¡MIRA-PREM! will support materials education and research pathways from the community college to the PhD level through cultural and community reflective programming and engagement. Fundamental to increasing workforce development in materials research is making science education accessible beyond those already engaged. ¡MIRA-PREM! invites students, particularly HMURM students, to participate and thrive as themselves, not assimilate into a world of research and discovery. ¡MIRA-PREM! student programs, such as Sparking Curiosity in STEM (SparCS) (Community Outreach Intervention), Club sCientifico de SparCS (CCSparCS)- a multilingual STEM communication program, and UT CDCM REU are designed to 1) enhance scientific skills and communication; 2) combat imposter syndrome, and 3) empower through community and engagement. ¡MIRA-PREM! cross-institutional research is organized via Focus Areas (FAs). !MIRA-PREM! FA1: New Materials for Controlled Light-Matter Interactions. Cross-institutional teams will explore 1) regulation of material optical properties through rational design; 2) light-induced emergent materials behavior, and 3) photonic response of non-equilibrium materials. Investigated systems range from quantum to macro-scales and soft/bio to solid state. FA2: ElectroResponsive Materials. Nanostructured and solid-state materials will be explored toward understanding how material interfaces drive electro-induced behavior. Proposed research efforts will result in significant advancement in the understanding of how material interfaces can be designed, controlled, or regulated toward emergent behavior in novel material systems for optical and electronic advanced technology applications including quantum information science (QIS), energy, microelectronics, sensing, and beyond. PCC and NAU students and researchers will benefit from access to world-class facilities and expertise of UT Austin’s CDCM and integrate via CDCM’s REU program, supporting student research exchanges and cross-institutional mentoring and engagement. Proposed research builds upon expertise and capabilities existing in the UT CDCM MRSEC and aligns strongly with research interests and interdisciplinary research groups (IRGs): IRG 1: Fuel-driven Pluripotent Materials, and: IRG 2: Engineered Functionality in Atomically Thin Heterostructures. This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
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