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www.sci-news.com 2015 00524.txt.txt

#Scientists Create Single-Molecule Diode The idea of creating a single-molecule diode a circuit element that directs current flow was suggested first more than 40 years ago, in 1974, by researchers Arieh Aviram of IBM Thomas J. Watson Research center and Mark Ratner of New york University. Scientists have since been exploring the charge-transport properties of molecules. They have shown that single-molecules attached to metal electrodes can be made to act as a variety of circuit elements, including resistors, switches, transistors, and, indeed, diodes. They have learned that it is possible to see quantum mechanical effects such as interference, manifest in the conductance properties of molecular junctions. onstructing a device where the active elements are only a single molecule has long been a tantalizing dream in nanoscience, Dr Venkataraman said. ur new approach created a single-molecule diode that has a high rectification and a high ncurrent. Since a diode acts as an electricity valve, its structure needs to be asymmetric so that electricity flowing in one direction experiences a different environment than electricity flowing in the other direction. In order to develop a single-molecule diode, researchers have designed simply molecules that have asymmetric structures. hile such asymmetric molecules do indeed display some diode-like properties, they are said not effective team member Brian Capozzi, a Phd student at Columbia University. In order to overcome the issues associated with asymmetric molecular design, the scientists focused on developing an asymmetry in the environment around the molecular junction. They surrounded the active molecule (oligomer of thiophene-1, 1-dioxide) with an ionic solution and used gold metal electrodes of different sizes to contact the molecule. Their results, reported in the journal Nature Nanotechnology, achieved rectification ratios as high as 250: 50 times higher than earlier designs. The ncurrent flow in their devices can be more than 0. 1 microamps which is a lot of current to be passing through a single-molecule. And, because this new technique is implemented so easily, it can be applied to all nanodevices of all types, including those that are made with graphene electrodes

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