Member Profile

Working with a team of interdisciplinary scientists at Cornell University, IGERT Fellow Mark Levendorf…

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IGERT Fellow Elizabeth Ellis has been working to understand the role of phase transformations in…

Since the isolation of graphene, a single layer of carbon atoms, in 2005, research into two-dimensional…

IGERT Fellow Jennifer Novotney investigated the importance of growth and activation conditions in…

IGERT Fellow Shaobo Zhu and his collaborators have integrated a thin film of the perovskite SrTiO3…

IGERT Fellow Scott Grutzik and his collaborator Richard Gates at the National Institute of Standards…

Working with a team of interdisciplinary scientists at Cornell University, IGERT Fellow Jason Mann…

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IGERT Fellow Roberto De Alba and his collaborators have fabricated micro- and nano-electromechanical…

IGERT Fellow Jared Strait has fabricated single-atom-thick graphene plasmonic devices for use as…

IGERT fellow Jennifer Novotney designed and synthesized a conjugated porous polymer that was able…

Extended systems in one-, two-, or three-dimensions, be they polymers, surfaces, or extended structures,…

A second educational module gave IGERT Fellows hands-on experience in computational research. Prof….

One of the major goals of the IGERT program is to prevent student overspecialization, in part by…

Graphene is a single layer of carbon atoms with remarkable optical, electrical, thermal, and mechanical…

IGERT Fellow Kevin Whitham fabricated solar cells and field effect transistors (FETs) using nanoparticles….

Graphene has a number of exceptional properties, but its uniform two-dimensional structure lacks…

Working with a team of interdisciplinary scientists and engineers at Cornell University, IGERT Fellow…

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Single-atom-thick sheets of graphite — so-called “graphene” films — have incredible electrical…

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The invention of the laser has had a revolutionary effect on our ability to use light as a means…

Experimentalists increasingly embrace molecular-scale modeling either to explain phenomena observed…

IGERT Fellow Ted Gudmundsen developed a single nanoscale bit which can be replicated to make magnetic…

The development of new materials for fuel cells and batteries requires a detailed understanding…

IGERT Fellow Joshua Choi and his collaborators studied quantum tunneling between lead chalcogenide…

IGERT Fellow Daniel Shai and collaborators are trying to store information in the spin of an electron….

IGERT Fellow Cen Tan has synthesized and characterized a series of rigid linear molecules containing…

IGERT Fellow Mark Levendorf is developing new fabrication methods for devices made from a single…

One of the major goals of the IGERT program is to prevent student overspecialization, in part by…

Solar energy has minimal impact today, because the leading technology, which is based on crystalline…

IGERT Fellow Jonathan Alden produced the world’s thinnest balloon: a graphene membrane only…

One of the major goals of the IGERT program is to prevent student overspecialization, in part by…

Experimentalists increasingly embrace the advantages of coupling molecular-scale modeling to their…

All materials are magnetic — the magnetic response can range from weakly diamagnetic to strongly…

IGERT Fellow Robert Rodriguez has been working with Intel’s Paul Zimmerman to develop high-refractive-index…

Over the past four decades, reductions in transistor size have led to faster speeds, larger storage…

The production of atomically flat silicon surfaces is a long-standing technological challenge, as…