%0 Generic %1 yao2018analysis %A Yao, Y. %D 2018 %K graphene %T Analysis of Current Hysteresis in Graphene Field Effect Transistor %U http://arxiv.org/abs/1804.05542 %X In this report, the hysteresis behaviors of PEI:LiClO4 and PEG:LiClO4 electrolyte gate and back gate Graphene-on-SiO2 FET were analyzed by gate-voltage source-drain current modulation. It is shown that both the sweeping rate and the sweep range will cause hysteresis behaviors in the form of Dirac Point shifting or changes in the current. Different mechanisms including charge trapping and electrical double layer capacitive effect are proposed to explain the behavior qualitatively on both back gated and electrolyte gated FET and partially confirmed with the present experimental results.

@misc{yao2018analysis, abstract = {In this report, the hysteresis behaviors of PEI:LiClO4 and PEG:LiClO4 electrolyte gate and back gate Graphene-on-SiO2 FET were analyzed by gate-voltage source-drain current modulation. It is shown that both the sweeping rate and the sweep range will cause hysteresis behaviors in the form of Dirac Point shifting or changes in the current. Different mechanisms including charge trapping and electrical double layer capacitive effect are proposed to explain the behavior qualitatively on both back gated and electrolyte gated FET and partially confirmed with the present experimental results.}, added-at = {2021-03-13T18:52:54.000+0100}, author = {Yao, Y.}, biburl = {https://www.bibsonomy.org/bibtex/2d9f0bf476736634f30a02078ef6bf035/cmcneile}, description = {Analysis of Current Hysteresis in Graphene Field Effect Transistor}, interhash = {e8596c01f2345817a426079e080399a9}, intrahash = {d9f0bf476736634f30a02078ef6bf035}, keywords = {graphene}, note = {cite arxiv:1804.05542Comment: 15 pages, 6 figures}, timestamp = {2021-03-13T18:52:54.000+0100}, title = {Analysis of Current Hysteresis in Graphene Field Effect Transistor}, url = {http://arxiv.org/abs/1804.05542}, year = 2018 }