TY - JOUR
T1 - Contact resistance extraction of graphene FET technologies based on individual device characterization
AU - Pacheco Sanchez, Anibal Uriel
AU - Feijoo Guerro, Pedro Carlos
AU - Jimenez Jimenez, David
PY - 2020/10/1
Y1 - 2020/10/1
N2 - Straightforward contact resistance extraction methods based on electrical device characteristics are described and applied here to graphene field-effect transistors from different technologies. The methods are an educated adaptation of extraction procedures originally developed for conventional transistors by exploiting the drift–diffusion-like transport in graphene devices under certain bias conditions. In contrast to other available approaches for contact resistance extraction of graphene transistors, the practical methods used here do not require either the fabrication of dedicated test structures or internal device phenomena characterization. The methodologies are evaluated with simulation-based data and applied to fabricated devices. The extracted values are close to the ones obtained with other more intricate methodologies. Bias-dependent contact and channel resistances studies, bias-dependent high-frequency performance studies and contact engineering studies are enhanced and evaluated by the extracted contact resistance values
AB - Straightforward contact resistance extraction methods based on electrical device characteristics are described and applied here to graphene field-effect transistors from different technologies. The methods are an educated adaptation of extraction procedures originally developed for conventional transistors by exploiting the drift–diffusion-like transport in graphene devices under certain bias conditions. In contrast to other available approaches for contact resistance extraction of graphene transistors, the practical methods used here do not require either the fabrication of dedicated test structures or internal device phenomena characterization. The methodologies are evaluated with simulation-based data and applied to fabricated devices. The extracted values are close to the ones obtained with other more intricate methodologies. Bias-dependent contact and channel resistances studies, bias-dependent high-frequency performance studies and contact engineering studies are enhanced and evaluated by the extracted contact resistance values
U2 - 10.1016/j.sse.2020.107882
DO - 10.1016/j.sse.2020.107882
M3 - Article
SN - 0038-1101
VL - 172
JO - SOLID-STATE ELECTRONICS
JF - SOLID-STATE ELECTRONICS
M1 - 107882
ER -