Title :
Graphene base hot electron transistors with high on/off current ratios
Author :
Vaziri, S. ; Lupina, G. ; Smith, A.D. ; Dabrowski, Jerzy ; Lippert, G. ; Mehr, Wolfgang ; Ostling, Mikael ; Lemme, M.C.
Author_Institution :
Sch. of Inf. & Commun. Technol., KTH R. Inst. of Technol., Kista, Sweden
Abstract :
Despite exceptional intrinsic properties of graphene, field effect transistors with graphene channels (GFETs) are limited by the absence of an electronic band gap. The resulting low ION-IOFF ratio and low output resistance makes GFETs unsuitable for logic applications [1] and limits radio frequency (RF) applications [2]. We will present a graphene-based electronic device in which the 0 eV band gap does not limit the device performance: a hot electron transistor (HET) with a graphene base (Graphene Base Transistor, GBT) [3,4]. The single-atomic thinness and high conductivity are decisive advantages of a graphene base [5]. Here, we report on the fabrication and full DC-characterization of GBTs with high ION-IOFF ratio of 105.
Keywords :
field effect transistors; graphene; hot electron transistors; semiconductor device manufacture; GFET; electronic band gap; field effect transistor; graphene base hot electron transistor; graphene base transistor; graphene channel; graphene-based electronic device; high on/off current ratio; radio frequency application; Aluminum oxide; Educational institutions; Graphene; Performance evaluation; Photonic band gap; Radio frequency; Transistors;
Conference_Titel :
Device Research Conference (DRC), 2013 71st Annual
Conference_Location :
Notre Dame, IN
Print_ISBN :
978-1-4799-0811-0
DOI :
10.1109/DRC.2013.6633784
