In this section, you can access to the latest technical information related to the FUTURE project topic.

High Mobilities in Layered InSe Transistors with Indium?Encapsulation?Induced Surface Charge Doping

Tunability and stability in the electrical properties of 2D semiconductors pave the way for their practical applications in logic devices. A robust layered indium selenide (InSe) field?effect transistor (FET) with superior controlled stability is demonstrated by depositing an indium (In) doping layer. The optimized InSe FETs deliver an unprecedented high electron mobility up to 3700 cm2 V?1 s?1 at room temperature, which can be retained with 60% after 1 month. Further insight into the evolution of the position of the Fermi level and the microscopic device structure with different In thicknesses demonstrates an enhanced electron?doping behavior at the In/InSe interface. Furthermore, the contact resistance is also improved through the In insertion between InSe and Au electrodes, which coincides with the analysis of the low?frequency noise. The carrier fluctuation is attributed to the dominance of the phonon scattering events, which agrees with the observation of the temperature?dependent mobility. Finally, the flexible functionalities of the logic?circuit applications, for instance, inverter and not?and (NAND)/not?or (NOR) gates, are determined with these surface?doping InSe FETs, which establish a paradigm for 2D?based materials to overcome the bottleneck in the development of electronic devices.

» Author: Mengjiao Li , Che?Yi Lin , Shih?Hsien Yang , Yuan?Ming Chang , Jen?Kuei Chang , Feng?Shou Yang , Chaorong Zhong , Wen?Bin Jian , Chen?Hsin Lien , Ching?Hwa Ho , Heng?Jui Liu , Rong Huang , Wenwu Li ,

» Reference: doi:10.1002/adma.201803690

» Publication Date: 14/09/2018

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