Title :
Fully Transfer Characteristic-Based Technique for Surface Potential and Subgap Density of States in p-Channel Polymer-Based TFTs
Author :
Jaewook Lee ; Sungwoo Jun ; Jaeman Jang ; Hagyoul Bae ; Hyeongjung Kim ; Jong Won Chung ; Sung-Jin Choi ; Dae Hwan Kim ; Jiyoul Lee ; Dong Myong Kim
Author_Institution :
Sch. of Electr. Eng., Kookmin Univ., Seoul, South Korea
Abstract :
We report a fully subthreshold current-based technique for characterization of subgap density of states [DOS:g(E)] with consistent mapping of the surface potential (ψS) in p-channel polymer-based thin-film transistors (PTFTS). Initially, we propose a technique for extraction of the DOS over the bandgap using the gate voltage (VGS)-dependent ideality factor [m(VGS)] from the transfer characteristics of the PTFTs under subthreshold operation. We also propose a technique for a consistent nonlinear mapping of VGS to the subgap energy level by converting m(VGS) to ψS. Through combining the two methods, the exponential tail and deep g(E) are obtained to be NTD=1·1×1017 [eV-1·cm-3], kTTD=0·035 [eV], NDD=9·8×1016 [eV-1·cm-3], and kTDD=0·80 [eV] over the bandgap.
Keywords :
thin film transistors; DOS extraction; density of states; electron volt energy 0.035 eV; electron volt energy 0.80 eV; exponential tail; fully transfer characteristic-based technique; gate voltage-dependent ideality factor; nonlinear mapping; p-channel polymer-based TFT; subgap density; subgap energy level; surface potential; thin-film transistors; Polymers; Spectroscopy; Subthreshold current; Thin film transistors; Density of states (DOS); organic; polymer; subthreshold current; surface potential; thin-film transistors (TFTs);
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2013.2280014
