1984
DOI: 10.1143/jjap.23.130
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Field Effect Measurement of Organic Dye Films

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Cited by 189 publications
(92 citation statements)
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“…A molecular-scale electronic device-the first of which, a molecular diode, was proposed by Aviram & Ratner (1974)-is one in which a single molecule performs an electronic function (or an array of molecules performs the function in parallel). Organic electronics (Farchioni & Grosso 2001;Malliaras 2003;Facchetti et al 2005)-a field that originated with the discovery by Heeger, MacDiarmid and Shirakawa of electrical conduction in doped organic polymers (Chiang et al 1977)-is the use of films of molecules and polymers as the semiconducting (charge transporting) materials, electrodes or dielectric materials within electronic devices such as light emitting diodes (Hutchison et al 1999;Morteani 2003;Tseng et al 2006), field effect transistors (Kudo & Yamashina 1984;Dimitrakopoulos & Mascaro 2001;Dimitrakopoulos & Malenfant 2002;Newman et al 2004;Shankar & Jackson 2004;Panzer et al 2005) and solar cells (Gregg 2003;Gledhill et al 2005;Shaheen et al 2005).…”
mentioning
confidence: 99%
“…A molecular-scale electronic device-the first of which, a molecular diode, was proposed by Aviram & Ratner (1974)-is one in which a single molecule performs an electronic function (or an array of molecules performs the function in parallel). Organic electronics (Farchioni & Grosso 2001;Malliaras 2003;Facchetti et al 2005)-a field that originated with the discovery by Heeger, MacDiarmid and Shirakawa of electrical conduction in doped organic polymers (Chiang et al 1977)-is the use of films of molecules and polymers as the semiconducting (charge transporting) materials, electrodes or dielectric materials within electronic devices such as light emitting diodes (Hutchison et al 1999;Morteani 2003;Tseng et al 2006), field effect transistors (Kudo & Yamashina 1984;Dimitrakopoulos & Mascaro 2001;Dimitrakopoulos & Malenfant 2002;Newman et al 2004;Shankar & Jackson 2004;Panzer et al 2005) and solar cells (Gregg 2003;Gledhill et al 2005;Shaheen et al 2005).…”
mentioning
confidence: 99%
“…Organic materials have been incorporated as active layers in electronic thin-film devices, such as organic lightemitting diodes (OLEDs), 1,2 organic solar cells, 3,4 electrochemical cells 5 and organic field-effect transistors (OFETs). [6][7][8][9] The progress in the field of OLEDs for display applications was recently highlighted by the demonstration of a 20-inch full-color active-matrix OLED display driven by amorphous Si thin-film transistors. 10 OFETs are being developed as switching devices for active-matrix OLED displays 11 and for low-cost electronics, such as low-end smart cards and electronic identification tags.…”
mentioning
confidence: 99%
“…Since its proposal in early 1980s [145][146][147] organics optoelectronics is evolving at an extremely rapid pace, driven by the huge possibilities it promises.…”
Section: Organic Based Optoelectronicsmentioning
confidence: 99%