| Literature DB >> 27323003 |
Dongyoon Khim1,2, Eul-Yong Shin1, Yong Xu1, Won-Tae Park1, Sung-Ho Jin3, Yong-Young Noh1.
Abstract
The threshold voltage and onset voltage for p-channel and n-channel regimes of solution-processed ambipolar organic transistors with top-gate/bottom-contact (TG/BC) geometry were effectively tuned by gate buffer layers in between the gate electrode and the dielectric. The work function of a pristine Al gate electrode (-4.1 eV) was modified by cesium carbonate and vanadium oxide to -2.1 and -5.1 eV, respectively, which could control the flat-band voltage, leading to a remarkable shift of transfer curves in both negative and positive gate voltage directions without any side effects. One important feature is that the mobility of transistors is not very sensitive to the gate buffer layer. This method is simple but useful for electronic devices where the threshold voltage should be precisely controlled, such as ambipolar circuits, memory devices, and light-emitting device applications.Entities:
Keywords: ambipolar transport; buffer layers; flat-band voltages; organic-field effect transistors; threshold voltages
Year: 2016 PMID: 27323003 DOI: 10.1021/acsami.6b03671
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229