Title :
Electronic transport in self-organised molecular nanostructure devices
Author :
Pecchia, A. ; Movaghar, B. ; Kelsall, R.W. ; Bourlange, A. ; Evans, S. ; Hickey, B. ; Boden, N.
Author_Institution :
Centre for Self Organising Molecular Syst., Leeds Univ., UK
Abstract :
A computational model of the frequency dependent conductivity in hybrid metal/organic multilayer nanostructures is presented. The structures under investigation are fabricated by evaporation of liquid crystal molecules onto an ultrathin MBE grown metal film. The disk-like liquid crystal molecules self-assemble in conducting columns which, in turn, self-organise on the metal surface to form an ordered 2-dimensional array. Electronic transport in the metal film is influenced by this molecular overlayer, and such systems may thus be used in a range of sensor applications, with the specific sensor functions being determined by customised chemical synthesis of the molecules.
Keywords :
electrical conductivity; molecular electronics; nanotechnology; self-assembly; chemical synthesis; computational model; electronic transport; frequency dependent conductivity; hybrid metal/organic multilayer nanostructure; liquid crystal molecular overlayer; self-organised molecular device; sensor; two-dimensional array; ultrathin MBE metal film; Astronomy; Chemical sensors; Conductivity; Electron traps; Lattices; Liquid crystals; Nanoscale devices; Orbital calculations; Physics; Sensor systems and applications;
Conference_Titel :
Computational Electronics, 2000. Book of Abstracts. IWCE Glasgow 2000. 7th International Workshop on
Conference_Location :
Glasgow, UK
Print_ISBN :
0-85261-704-6
DOI :
10.1109/IWCE.2000.869946
