We present a first principle study about the stability and the electronic properties of a new biomolecular solid-state material, obtained by the self-assembling of guanine (G) molecules. We consider hydrogen-bonded planar ribbons in isolated and stacked configurations. These aggregates present electronic properties similar to inorganic wide-band gap semiconductors. The formation of Bloch-type orbitals is observed along the stacking direction, white it is negligible in the ribbon plane. Global band-like conduction may be affected by a dipole-Field which spontaneously arises along the ribbon axis. Our results indicate that G-ribbon assemblies are promising materials for biomolecular nanodevices, consistently with recent experimental results. (C) 2002 Elsevier Science B.V. All rights reserved.
Self-assembled guanine ribbons as wide-bandgap semiconductors / Calzolari, Arrigo; DI FELICE, Rosa; Molinari, Elisa; Garbesi, A.. - In: PHYSICA E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES. - ISSN 1386-9477. - STAMPA. - 13:2-4(2002), pp. 1236-1239. [10.1016/S1386-9477(02)00343-0]
Self-assembled guanine ribbons as wide-bandgap semiconductors
CALZOLARI, ARRIGO;DI FELICE, ROSA;MOLINARI, Elisa;
2002
Abstract
We present a first principle study about the stability and the electronic properties of a new biomolecular solid-state material, obtained by the self-assembling of guanine (G) molecules. We consider hydrogen-bonded planar ribbons in isolated and stacked configurations. These aggregates present electronic properties similar to inorganic wide-band gap semiconductors. The formation of Bloch-type orbitals is observed along the stacking direction, white it is negligible in the ribbon plane. Global band-like conduction may be affected by a dipole-Field which spontaneously arises along the ribbon axis. Our results indicate that G-ribbon assemblies are promising materials for biomolecular nanodevices, consistently with recent experimental results. (C) 2002 Elsevier Science B.V. All rights reserved.
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