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Organic Field-Effect Transistors schematic

Figure 2. (a) Schematic cross section of an organic field-effect transistor (OFET). (b) Schematic cross section of an organic electrochemical transistor (OECT). The applied source-drain voltage Vd and gate voltage Vg are also shown. [Pg.182]

Figure 12.1 Schematic of an organic field effect transistor with its relevant interfaces. The molecules are shown in green. Figure 12.1 Schematic of an organic field effect transistor with its relevant interfaces. The molecules are shown in green.
Figure 8.1 Schematic cross section of our pentacene (Pc) organic field effect transistors. Figure 8.1 Schematic cross section of our pentacene (Pc) organic field effect transistors.
Figure 11.1 Schematic layout of organic field effect transistors with top (a) and bottom contacts (b). Figure 11.1 Schematic layout of organic field effect transistors with top (a) and bottom contacts (b).
Fig. 12.13 An organic thin-film field-effect transistor, schematic. The current Id in a weakly semiconducting organic film (black) between two electrodes S (source) and D (drain) can be controlled by the gate (G) voltage Vc- The latter influences charge carriers capacitively in a thin layer of the... Fig. 12.13 An organic thin-film field-effect transistor, schematic. The current Id in a weakly semiconducting organic film (black) between two electrodes S (source) and D (drain) can be controlled by the gate (G) voltage Vc- The latter influences charge carriers capacitively in a thin layer of the...
Figure 3.1 Schematic illustration for charge injection barrier (energy level alignment) and charge transport in an organic field-effect transistor using hole transport. The upper part depicts a typical structure of OFET and the... Figure 3.1 Schematic illustration for charge injection barrier (energy level alignment) and charge transport in an organic field-effect transistor using hole transport. The upper part depicts a typical structure of OFET and the...
Figure 8.1 Schematic representation of an due to the gate voltage, Vg. The drain voltage, organic field-effect transistor with typical Vj, is then used to extract charges from the... Figure 8.1 Schematic representation of an due to the gate voltage, Vg. The drain voltage, organic field-effect transistor with typical Vj, is then used to extract charges from the...
Figure 5 (a) Schematic organic field-effect transistor structure, (b) jr-stacking fluorinated perylene dicarboximide, (c) donor-acceptor... [Pg.3581]

In addition to applications as functional materials in OLEDs and OSCs, semiconducting polymers are needed for other (opto)electronic devices as well. With regard to displays, sensors, and radio-frequency identification tags (RFIDs) for example, it is a challenge to create polymer-based organic transistors (thin-film transistors, OTFT field-effect transistors, OFETs). Figure 6.7 sketches an optional OFET design, and additionally shows schematically its principle of operation. [Pg.386]

Figure 11.3 Schematic device configuration of a field effect transistor using an organic thin film... Figure 11.3 Schematic device configuration of a field effect transistor using an organic thin film...
A field-effect transistor (FET) is a three terminal device, equipped with three electrodes named source, drain and gate. The device architecture mostly used with organic semiconductors is the thin film FET (TFT), which is schematized in Fig. 13. [Pg.305]

See other pages where Organic Field-Effect Transistors schematic is mentioned: [Pg.181]    [Pg.235]    [Pg.114]    [Pg.648]    [Pg.485]    [Pg.107]    [Pg.214]    [Pg.1024]    [Pg.39]    [Pg.686]    [Pg.50]    [Pg.193]    [Pg.465]    [Pg.166]    [Pg.378]    [Pg.460]    [Pg.187]   
See also in sourсe #XX -- [ Pg.438 ]



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