2010
DOI: 10.1016/j.orgel.2009.12.003
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Long-lived persistent currents in poly(3-octylthiophene) thin film transistors

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Cited by 14 publications
(15 citation statements)
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“…In successive pulses, the amplitude of the response increased but on a steadily increasing background -the 100 s dark period was insufficient to return the device to the initial condition. This is an example of persistent photoconductivity reported by several others workers[31][32][33].When the device was biased into the on state (VG = -40 V, VD = -1 V), as seen in…”
supporting
confidence: 67%
“…In successive pulses, the amplitude of the response increased but on a steadily increasing background -the 100 s dark period was insufficient to return the device to the initial condition. This is an example of persistent photoconductivity reported by several others workers[31][32][33].When the device was biased into the on state (VG = -40 V, VD = -1 V), as seen in…”
supporting
confidence: 67%
“…These values are comparable to previous untreated PVP-based transistors [34,[49][50][51]. Differences in performance after stress can be related to accentuated trapping from hydroxyl groups at the PVP backbone [31,38]. According to Choi et al, new trapping sites can be created because of water molecules adsorbed to the semiconducting film [52].…”
Section: B Current Versus Voltage Shifts Under Stresssupporting
confidence: 69%
“…A greater VT was observed for PVP:PMF on glass, since the organic dielectric is thicker (830 nm) compared to SiO2 (300 nm) [38]. Positive VT values are related to doping by O2 in the atmosphere [2,25,31,32]. A higher trapping is to be expected at the semiconductor/dielectric interface on glass, since the effective mobility is one order of magnitude lower and the subthreshold slope 20 % higher.…”
Section: A Pristine Transistor Performance On Both Substratesmentioning
confidence: 96%
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“…More recently, Kim et al explained the persistent photocurrent in dihexylquarterthiophene (DH4T) organic transistor with a slow detrapping of photogenerated carriers and they observed that the gate electric field could accelerate this detrapping process [32]. A similar phenomenon was reported by Lutsyk et al on the study of poly(3-octylthiophene) (P3OT) transistor and they also emphasized the role of gate bias for erasing the memory effect [33]. Despite the dissimilarities in the material and/or the device geometry, it is likely that these results can help interpret our observation.…”
Section: Circuit Parameters During Relaxationsupporting
confidence: 52%