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Program Highlights

Chip Breakthrough Technology
University of Massachusetts Amherst

A collaboration between researcher supported by the DOE and NSF-MRSEC's at UC Santa Barbara and UMASS Amherst, and IBM has led to a revolutionary chip breakthrough that pr

Self-Assembled Nanocrystal Membranes
University of Chicago

Close-packed nanocrystal monolayers can be self-assembled by simple drop casting into ultra-thin free-standing membranes.

Generating well-defined gradients of adhesion molecules for the attachment of cells
University of Chicago

The Ismagilov and Mrksich groups at the University of Chicago MRSEC have recently established that a microfluidic system utilized in conjunction with surface immobilization chemistries can be used to pattern surfaces with well-defined gradients of adhesion molecules for the attachment of cells.

REU student contributes to important research on controlled drug delivery
Massachusetts Institute of Technology

Fine Print: New Technique Allows Fast Printing of Microscopic Electronics
Princeton University

While electronics have become much smaller and more powerful, an elusive goal has been to "print" these tiny devices rapidly over very large areas.While electronics have become much smaller and more powerful, an elusive goal has been to "print" thes

New Initiatives in PCCM REU Program
Princeton University

The Princeton Center for Complex Materials has run a highly successful Research Experience for Undergraduates (REU) program for over a decade.

Perfectly Hydrophobic Materials
University of Massachusetts Amherst

Reaching a New Level of Nanostructuring: Two-Phase Clusters
University of Nebraska

Correlation Effects and Electronic Structure of Gd@C60
University of Nebraska

Summer Programs Share Nanoscale Research
University of Nebraska

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