Increasing the ease and the rapidity of processing in micro and nanotechnology is an ongoing task, which is pursued in both the academic environment for investigation of novel systems and in industry for fabrication of complex circuits on a large scale. In the field of nanoelectronics, the major challenge is to demonstrate a feasible method for device implementation based on individual nanosize objects, such as nanowires, nanotubes and nanocrystals. However, integrating these small objects in a macroscopic circuit is a difficult task. So far, nanostructures have been wired by highly sophisticated techniques not suitable for large-scale integration in macroscopic circuits, such as electron-beam lithography or focused ion-beam deposition. Here we present a 'one-pot' and rapid approach to electrically interconnect individual nanowires from random spatial distribution, with high spatial and positioning resolution and a remarkable reduction in overall fabrication time with respect to the other expensive and laborious techniques. The reliability of such technique is demonstrated by implementing a single semiconductor nanowire device

Rapid method for the interconnection of single nano-objects

A Della Torre;G Maruccio;M Pugliese;F Ferrara;D Ercolani;S Roddaro;L Sorba;R Rinaldi
2015

Abstract

Increasing the ease and the rapidity of processing in micro and nanotechnology is an ongoing task, which is pursued in both the academic environment for investigation of novel systems and in industry for fabrication of complex circuits on a large scale. In the field of nanoelectronics, the major challenge is to demonstrate a feasible method for device implementation based on individual nanosize objects, such as nanowires, nanotubes and nanocrystals. However, integrating these small objects in a macroscopic circuit is a difficult task. So far, nanostructures have been wired by highly sophisticated techniques not suitable for large-scale integration in macroscopic circuits, such as electron-beam lithography or focused ion-beam deposition. Here we present a 'one-pot' and rapid approach to electrically interconnect individual nanowires from random spatial distribution, with high spatial and positioning resolution and a remarkable reduction in overall fabrication time with respect to the other expensive and laborious techniques. The reliability of such technique is demonstrated by implementing a single semiconductor nanowire device
2015
Istituto Nanoscienze - NANO
Istituto Nanoscienze - NANO
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/290267
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