2012
DOI: 10.1021/ja3036493
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In-Situ Probe of Gate Dielectric-Semiconductor Interfacial Order in Organic Transistors: Origin and Control of Large Performance Sensitivities

Abstract: Organic thin film transistor (OTFT) performance is highly materials interface-dependent, and dramatic performance enhancements can be achieved by properly modifying the semiconductor/gate dielectric interface. However, the origin of these effects is not well understood, as this is a classic "buried interface" problem that has traditionally been difficult to address. Here we address the question of how n-octadecylsilane (OTS)-derived self-assembled monolayers (SAMs) on Si/SiO(2) gate dielectrics affect the OTFT… Show more

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Cited by 89 publications
(110 citation statements)
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“…C8-PFTS was printed onto SiO2, and C8-PFPA was used onto AlO x respectively. Figure 5 shows the transfer curves of the n-type F 16 CuPc OFETs on both substrates and these devices have a similar mobility around 0.0125 cm 2 V −1 s −1 with a positive threshold voltage of 19 and 2.1 V, respectively. By showing these highly comparable transfer curves with one that has been reported, [ 10 ] it is obvious that the current SAM deposition method could be used for different kinds of SAMs with different terminal groups, and a very competitive performance can be achieved by such a time saving direct patterning method of SAMs.…”
Section: Resultsmentioning
confidence: 98%
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“…C8-PFTS was printed onto SiO2, and C8-PFPA was used onto AlO x respectively. Figure 5 shows the transfer curves of the n-type F 16 CuPc OFETs on both substrates and these devices have a similar mobility around 0.0125 cm 2 V −1 s −1 with a positive threshold voltage of 19 and 2.1 V, respectively. By showing these highly comparable transfer curves with one that has been reported, [ 10 ] it is obvious that the current SAM deposition method could be used for different kinds of SAMs with different terminal groups, and a very competitive performance can be achieved by such a time saving direct patterning method of SAMs.…”
Section: Resultsmentioning
confidence: 98%
“…The schematics and transfer characteristics of the complementary circuits on an AlO x dielectric are shown in Figure 6 . We utilize DNTT and F 16 CuPc as the active layer materials and ODPA and C8-PFPA are separately printed on the dielectric. Both OFETs in a complementary inverter have a channel length of 100 µm, while the channel width for the p-type transistor is 500 µm and for the n-type transistor is 7500 µm.…”
Section: Resultsmentioning
confidence: 99%
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“…Typical oligothiophenes are either fused systems [15] or end-capped by alkyl [16] or aromatic or polyaromatic groups in a symmetric [17] or asymmetric manner [18] manifesting vertically aligned face-to-face structure on the OFET surface. This structure is further modified by an additional molecular layer between electrodes and thiophene layer [19] or altered by external parameters such as externally induced uniaxial strain [20]. The structure of various oligothiophenes in OFETs has been resolved ex situ even in the monolayer level [16] but the effect of electric field in running OFETs, corresponding those observed for pentance [13], are not well reported.…”
Section: Introductionmentioning
confidence: 99%