Nanogap structures for molecular nanoelectronics
نویسندگان
چکیده
This study is focused on the realization of nanodevices for nano and molecular electronics, based on molecular interactions in a metal-molecule-metal (M-M-M) structure. In an M-M-M system, the electronic function is a property of the structure and can be characterized through I/V measurements. The contact between the metals and the molecule was obtained by gold nanogaps (with a dimension of less than 10 nm), produced with the electromigration technique. The nanogap fabrication was controlled by a custom hardware and the related software system. The studies were carried out through experiments and simulations of organic molecules, in particular oligothiophenes.
منابع مشابه
CORRELATION BETWEEN CRYSTAL ORIENTATION AND NANOGAP FORMED BY ELECTRO MIGRATION
Effect of electro migration on crystal structures of platinum nanowire (Nano bridge) during Nano-gap formation is investigated by means of Transmission Electron Microscopy (TEM). Selected area diffraction patterns as well as bright field images are used for this investigation. There were severely recessions in the polycrystalline Nano bridge and crystal structures around the nanogap changed ...
متن کاملDirect imaging of nanogap-mode plasmon-resonant fields.
We perform direct local-field imaging of a plasmon-resonant gold nanoparticle pair separated by a gap of several nanometers using a scattering-type near-field optical microscope with a sharp silicon tip of atomic force microscope. The sharp tip allows the access for the nanogap and the high spatial resolution. Our results provide experimental evidence that the nanogap structure produces an opti...
متن کاملQuantum mechanical effects in plasmonic structures with subnanometre gaps
Metallic structures with nanogap features have proven highly effective as building blocks for plasmonic systems, as they can provide a wide tuning range of operating frequencies and large near-field enhancements. Recent work has shown that quantum mechanical effects such as electron tunnelling and nonlocal screening become important as the gap distances approach the subnanometre length-scale. S...
متن کاملFabrication of a Few-Layer Graphene Electrodes for Molecular Electronics Devices
We report on the fabrication of a molecular transistor based on a single molecule trapped in a few-layer graphene nanogap. The device is pre-patterned with He-ion beam milling or oxygen plasma etching prior to nanogap formation. Pre-patterning helps to localize the gap, and to make it narrower, so that only a few or a single molecule can be trapped in it. The nanogap is formed by an electroburn...
متن کاملMolecular dynamics simulation of effective thermal conductivity of vapor-filled nanogap and nanocavity
The effect of adsorption on momentum au and thermal aT accommodation coefficients and effective thermal conductivity kf of Ar vapor-filled Pt nanogap and nanocavity is examined using nonequilibrium molecular dynamics MD simulations. For the accommodation coefficients, the increase in solid-fluid or fluid-fluid interatomic interactions within adsorbed layer causes transitions in magnitudes of au...
متن کامل