MRSEC

Shared Instrumentation Facilities

Benefiting researchers and universities, and sustaining research excellence

Courtesy of UCSB

Graphene: The more you bend it, the softer it gets

Researchers at the University of Illinois recently determined how much energy it takes to bend multilayer graphene – a question that has eluded scientists since graphene was first isolated.

Graphic courtesy Blanka Janicek, Pinshane Huang Lab

I-MRSEC’s Musical Magnetism Curriculum Uses Hip Hop to Teach Science

In the process students learned about the value of science communication.

Image courtesy of Pamela Pena-Martin

Understanding Glassy Materials

Penn Researchers Establish Universal Signature Fundamental to How Glassy Materials Fail

Credit: UPenn

Recent Program Highlights

UC Santa Barbara MRSEC Continues REU Program Through COVID-19 Lockdown

The UC Santa Barbara ran a fully remote REU program in Summer 2020, with 18 students working on primarily computational projects.

IRG-1: Magnetoplastic Coupling in Heusler Intermetallics

Experiments (top) showing near zero-net magnetization of MnAu2Al following plastic deformation and simulations (bottom) of low energy displacive pathways enabled by local spin orderings.

IRG-3: Accelerating Block Copolymer Research

A single parent diblock copolymer can be purified by automated chromatography to give libraries of well-defined, low dispersity block copolymers on multi-gram scale.

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

Shared Instrumentation Facilities

Benefiting researchers and universities, and sustaining research excellence

Graphene: The more you bend it, the softer it gets

Researchers at the University of Illinois recently determined how much energy it takes to bend multilayer graphene – a question that has eluded scientists since graphene was first isolated.

I-MRSEC’s Musical Magnetism Curriculum Uses Hip Hop to Teach Science

In the process students learned about the value of science communication.

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

A Collective Collaboration

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

Recent Program Highlights

UC Santa Barbara MRSEC Continues REU Program Through COVID-19 Lockdown

IRG-1: Magnetoplastic Coupling in Heusler Intermetallics

IRG-3: Accelerating Block Copolymer Research

MRSEC Program Overview

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Benefiting researchers and universities, and sustaining research excellence

Researchers at the University of Illinois recently determined how much energy it takes to bend multilayer graphene – a question that has eluded scientists since graphene was first isolated.

In the process students learned about the value of science communication.

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

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

Recent Program Highlights