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The Nanoporous Materials Genome Center

The Nanoporous Materials Genome Center (NMGC) discovers and explores microporous and mesoporous materials, including metal-organic frameworks (MOFs), zeolites, and porous polymer networks (PPNs). These materials find use as separation media and catalysts in many energy-relevant processes and their next generation computational design offers a high-payoff opportunity. Towards that end, the NMGC develops state-of-the-art predictive modeling tools and employs them to increase the pace of materials discovery. The NMGC provides a repository of experimental and predicted structures and associated properties for the rapidly growing scientific communities that are interested in using these materials in energy-relevant technologies.

Navigate to Other Activities by Strategic Goal

Strategic Goal: Equip the Next-Generation Materials Workforce
Center of Materials in Extreme Dynamic Environments (CMEDE)
Joint Center for Energy Storage Research (JCESR)
Automatic Flow for Materials Discovery (AFLOW)
Center of Excellence on Integrated Materials Modeling (CEIMM)
Rational Design of Advanced Polymeric Capacitor Films Multidisciplinary University Research Initiative (MURI)
Multidisciplinary University Research Initiative: Managing the Mosaic of Microstructure
PRedictive Integrated Structural Materials Science (PRISMS) Center
Center for Hierarchical Materials Design (CHiMaD)
The Materials Project
Strategic Goal: Enable a Paradigm Shift in Materials Development
QMCPACK
PRedictive Integrated Structural Materials Science (PRISMS) Center
The Brilliance of Diamonds
Multidisciplinary University Research Initiative: Managing the Mosaic of Microstructure
The Center for Materials in Extreme Dynamic Environments (CMEDE)
Joint Center for Energy Storage Research (JCESR)
The Materials Project
Center of Excellence on Integrated Materials Modeling (CEIMM)
The Nanoporous Materials Genome Center
AFRL, NIST, and NSF Announce Materials Science and Engineering Data Challenge Awardees
Center for Hierarchical Materials Design (CHiMaD)
Center of Materials in Extreme Dynamic Environments (CMEDE)
Strategic Goal: Facilitate Access to Materials Data
Innovation in High Energy Diffraction Microscopy Adds New Insights to Material Deformation and Failure
Center for Theoretical and Computational Materials Science (CTCMS)
Automatic Flow for Materials Discovery (AFLOW)
DOE EERE Fuel Cell Technologies Office Database
Joint Center for Artificial Photosynthesis (JCAP)
PRedictive Integrated Structural Materials Science (PRISMS) Center
Center for Hierarchical Materials Design (CHiMaD)
Innovative methods to identify critical and/or strategic elements from unconventional domestic sources
Center of Materials in Extreme Dynamic Environments (CMEDE)
Materials Data Curation System
Development and application of innovative methods for quantification of hexavalent chromium in soils
The Materials Project
AFRL, NIST, and NSF Announce Materials Science and Engineering Data Challenge Awardees
Data and Computational Tools for Advanced Materials Design: Structural Materials Applications - Cobalt Based Superalloys
Strategic Goal: Integrate Experiments, Computation, and Theory
Multidisciplinary University Research Initiative: Managing the Mosaic of Microstructure
Center of Excellence on Integrated Materials Modeling (CEIMM)
QMCPACK
PRedictive Integrated Structural Materials Science (PRISMS) Center
Center of Materials in Extreme Dynamic Environments (CMEDE)
Innovation in High Energy Diffraction Microscopy Adds New Insights to Material Deformation and Failure
Data and Computational Tools for Advanced Materials Design: Structural Materials Applications - Cobalt Based Superalloys
The Nanoporous Materials Genome Center
DOE EERE Fuel Cell Technologies Office Database
Rational Design of Advanced Polymeric Capacitor Films Multidisciplinary University Research Initiative (MURI)
Center for Hierarchical Materials Design (CHiMaD)
The Center for Materials in Extreme Dynamic Environments (CMEDE)