MRSEC

Illinois MRSEC Explores the Speed of Next Generation Logic and Memory Devices

Researchers say fundamental time scales of magnetization dynamics in these materials are thought be two orders of magnitude faster than in ferromagnets.

Credit:

Understanding Glassy Materials

Penn Researchers Establish Universal Signature Fundamental to How Glassy Materials Fail

Credit: UPenn

Columbia University MRSEC Collaboration Wins National Geographic Award

Winners AlgiKnit awarded first-place in the Sustainable Planet category

Courtesy of Columbia University MRSEC

NSF Announces New Awards for Materials Science and Engineering Centers

Program funds cutting-edge, collaborative research in materials science

Credit: CyberHades

Recent Program Highlights

Tenth Annual Conference for Undergraduate Women in Physical Sciences (WoPhyS)

At Nebraska MRSEC’s Conference for Undergraduate Women in Physical Sciences (WoPhyS), participants present research accomplishments, attend keynote talks, participate in graduate school preparation

Capturing Structural Dynamics of Materials with Ultrafast Electron Diffraction

“Phase transition” is a term which is commonly used to describe transformations between solid, liquid, and gaseous states of matter.

New Hybrid Heterostructure Nanophotonic Materials

The inherently weak light-matter interaction at the nanoscale can be enhanced by new metal-dielectric hybrid nanomaterials.

Read Other Highlights

Welcome to the internet hub of the Materials Research Science and Engineering Centers (MRSEC), a network of Centers located at academic institutions throughout the United States, funded by the National Science Foundation. This website provides organized connections to information and resources at the various MRSECs for the international scientific, industrial, and educational materials research and development communities.

Read more about MRSEC Program Overview

Illinois MRSEC Explores the Speed of Next Generation Logic and Memory Devices

Researchers say fundamental time scales of magnetization dynamics in these materials are thought be two orders of magnitude faster than in ferromagnets.

Strength in Numbers

How NSF's Materials Research Facilities Network helps bolster the field of materials science and engineering.

Understanding Glassy Materials

Penn Researchers Establish Universal Signature Fundamental to How Glassy Materials Fail

Columbia University MRSEC Collaboration Wins National Geographic Award

Winners AlgiKnit awarded first-place in the Sustainable Planet category

NSF Announces New Awards for Materials Science and Engineering Centers

Program funds cutting-edge, collaborative research in materials science

A Collective Collaboration

How NSF’s decades-long materials science program has fostered partnerships across scientific fields.

Recent Program Highlights

Tenth Annual Conference for Undergraduate Women in Physical Sciences (WoPhyS)

Capturing Structural Dynamics of Materials with Ultrafast Electron Diffraction

New Hybrid Heterostructure Nanophotonic Materials

MRSEC Program Overview

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Researchers say fundamental time scales of magnetization dynamics in these materials are thought be two orders of magnitude faster than in ferromagnets.

How NSF's Materials Research Facilities Network helps bolster the field of materials science and engineering.

Penn Researchers Establish Universal Signature Fundamental to How Glassy Materials Fail

Winners AlgiKnit awarded first-place in the Sustainable Planet category

Program funds cutting-edge, collaborative research in materials science

How NSF’s decades-long materials science program has fostered partnerships across scientific fields.

Recent Program Highlights