Interest in electronic properties of organic materials has been stimulated by emerging prospects of their application in electronics and photonics [1-4]. Among potential applications, one may envisage use of organic materials as active elements of molecular switches. According to a general definition, a switch is a mechanical, electrical, electronic, or optical device for opening or closing a circuit, or for diverting energy or charge from one part of a circuit to another. In this context, photochromic materials have been extensively studied. © 2011 IEEE.
Photoswitchable OFETs controlled by optical bistability in the dielectric layer / Sworakowski, J.; Lutsyk, P.; Janus, K.; Generali, G.; Capelli, R.; Muccini, M.; Kochalska, A.; Nespurek, S.. - (2011), pp. 29-30. (Intervento presentato al convegno 2011 IEEE 14th International Symposium on Electrets, ISE 2011 tenutosi a Montpellier, fra nel 2011) [10.1109/ISE.2011.6084966].
Photoswitchable OFETs controlled by optical bistability in the dielectric layer
Generali G.;Capelli R.;
2011
Abstract
Interest in electronic properties of organic materials has been stimulated by emerging prospects of their application in electronics and photonics [1-4]. Among potential applications, one may envisage use of organic materials as active elements of molecular switches. According to a general definition, a switch is a mechanical, electrical, electronic, or optical device for opening or closing a circuit, or for diverting energy or charge from one part of a circuit to another. In this context, photochromic materials have been extensively studied. © 2011 IEEE.
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