Center for Nanoscale Material and ‡Division of High Energy Physics, Argonne National Laboratory , Argonne, Illinois 60439, United States.
ACS Nano. 2014 Nov 25;8(11):11730-8. doi: 10.1021/nn505868h. Epub 2014 Oct 23.
In this article, we demonstrate enhanced electron and hole transport in few-layer phosphorene field effect transistors (FETs) using titanium as the source/drain contact electrode and 20 nm SiO2 as the back gate dielectric. The field effect mobility values were extracted to be ∼38 cm(2)/Vs for electrons and ∼172 cm(2)/Vs for the holes. On the basis of our experimental data, we also comprehensively discuss how the contact resistances arising due to the Schottky barriers at the source and the drain end effect the different regime of the device characteristics and ultimately limit the ON state performance. We also propose and implement a novel technique for extracting the transport gap as well as the Schottky barrier height at the metal-phosphorene contact interface from the ambipolar transfer characteristics of the phosphorene FETs. This robust technique is applicable to any ultrathin body semiconductor which demonstrates symmetric ambipolar conduction. Finally, we demonstrate a high gain, high noise margin, chemical doping free, and fully complementary logic inverter based on ambipolar phosphorene FETs.
在本文中,我们展示了在几层层状黑磷场效应晶体管(FET)中使用钛作为源/漏接触电极和 20nmSiO2 作为背栅电介质时,电子和空穴的传输得到增强。提取的场效应迁移率值分别为电子的 ∼38cm2/Vs 和空穴的 ∼172cm2/Vs。基于我们的实验数据,我们还全面讨论了由于源和漏端的肖特基势垒引起的接触电阻如何影响器件特性的不同区域,并最终限制了导通状态的性能。我们还提出并实施了一种从黑磷 FET 的双极性转移特性中提取传输间隙和金属-黑磷接触界面处肖特基势垒高度的新方法。这种稳健的技术适用于任何表现出对称双极性传导的超薄体半导体。最后,我们展示了一种基于双极性黑磷 FET 的高增益、高噪声裕度、无需化学掺杂和完全互补的逻辑逆变器。
