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Phaedon Avouris’ early work focused on the behavior of molecules adsorbed on surfaces. Avouris used scanning tunneling microscopy and spectroscopy (STM/S) to image on the atomic scale how chemical reactions take place at metal and semiconductor surfaces, and to study the factors that determine the reactivity of different surface sites. He also used STM to manipulate individual strongly-bonded atoms, clusters of atoms, molecules and nanostructures at surfaces.
Avouris is best known for his later pioneering contributions to nanoscience and nanotechnology. This work involves studies of the electrical and photonic properties of nanostructures, primarily carbon nanotubes and graphene, and their potential use in new electronic and photonics technologies. The research involves both basic science studies, as well as the fabrication and evaluation of novel, high performance nano-electronic and nano-photonic devices. Avouris and his research team produced the first carbon nanotube field effect transistors, logic gates and integrated electronic circuits. Analogous results were achieved using graphene, including the development of GHz high frequency transistors, integrated circuits, ultrafast infrared detectors, and plasmonic sensor devices.
Avouris is best known for his later pioneering contributions to nanoscience and nanotechnology. This work involves studies of the electrical and photonic properties of nanostructures, primarily carbon nanotubes and graphene, and their potential use in new electronic and photonics technologies. The research involves both basic science studies, as well as the fabrication and evaluation of novel, high performance nano-electronic and nano-photonic devices. Avouris and his research team produced the first carbon nanotube field effect transistors, logic gates and integrated electronic circuits. Analogous results were achieved using graphene, including the development of GHz high frequency transistors, integrated circuits, ultrafast infrared detectors, and plasmonic sensor devices.
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Physical review lettersno. 8 (2024): 089901-089901
Nature Communicationsno. 1 (2024): 1-14
PHYSICAL REVIEW APPLIEDno. 6 (2023)
NATURE COMMUNICATIONSno. 1 (2021): 3824-18
Bulletin of the American Physical Society (2020)
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