New Technique Provides Better Understanding of Problems with Lithium-Air Rechargeable Batteries
Image depicting a solid-state lithium-air battery inside the in situ ambient pre
Curvature Sorting of Peripheral Proteins on Solid-Supported Wavy Membranes
(Left) Surface topography and curvatures measured via AFM.
X-ray Standing Wave Mapping of Graphene/SiC
Ohio State researchers discover Giant spin Seebeck effect
NanoFabulous, Developed by the University of Maryland MRSEC
Electric Potential Metrology on the Nanoscale, University of Maryland

MRSEC Program Overview

Welcome to the internet hub of the Materials Research Science and Engineering Centers (MRSEC). This website provides organized information and resources at the various MRSECs for the international scientific, industrial, and educational materials research and development communities.

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Program Highlights

June 18, 2013

Coupling a Single Electron Spin to a Microwave Cavity
Research
Princeton University

IRG-D researchers at Princeton University have combined superconducting qubit technology with single spin devices, demonstrating that the microwave field of a superconducting resonator is sensitive to the spin of a single electron. 

June 18, 2013

A Key Signature of Dirac Fermions
Research
Princeton University

Dirac FermionsIn solids, the kinetic energy of an electron generally increases as the square of its momentum. By contrast, in a Topological Insulator such as Bi2Te2Se, electrons on the surface are predicted to be Dirac Fermions for which the energy increases linearly with momentum. In a magnetic field B, the allowed states of an electron are quantized into Landau Levels (LLs). The sequential emptying of occupied LLs in an increasing field leads to quantum oscillations in the conductance Gxx (Fig. 1A).