The single-molecule conductance of a 3-ring, conjugated azomethine was studied using the mechanically controlled breakjunction technique. Charge transport properties are found to be comparable to vinyl-based analogues; findings are supported with density functional calculations. The simple preparation and good transport properties make azomethine-based molecules an attractive class for use in polymer and single-molecule organic electronics.
Charge transport through conjugated azomethine-based single molecules for optoelectronic applications / Koole, M.; Frisenda, R.; Petrus, M. L.; Perrin, M. L.; Van Der Zant, H. S. J.; Dingemans, T. J.. - In: ORGANIC ELECTRONICS. - ISSN 1566-1199. - 34:(2016), pp. 38-41. [10.1016/j.orgel.2016.03.043]
Charge transport through conjugated azomethine-based single molecules for optoelectronic applications
Frisenda R.;
2016
Abstract
The single-molecule conductance of a 3-ring, conjugated azomethine was studied using the mechanically controlled breakjunction technique. Charge transport properties are found to be comparable to vinyl-based analogues; findings are supported with density functional calculations. The simple preparation and good transport properties make azomethine-based molecules an attractive class for use in polymer and single-molecule organic electronics.| File | Dimensione | Formato | |
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