石墨烯
材料科学
神经形态工程学
极性(国际关系)
场效应晶体管
电导
电场
光电子学
晶体管
带隙
纳米技术
非易失性存储器
导电体
场效应
逻辑门
电气工程
凝聚态物理
计算机科学
电压
物理
化学
工程类
复合材料
机器学习
量子力学
生物化学
细胞
人工神经网络
作者
T. J. Echtermeyer,Max C. Lemme,M. Baus,B. N. Szafranek,A. K. Geǐm,H. Kurz
标识
DOI:10.1109/led.2008.2001179
摘要
The absence of a band gap in graphene restricts its straight forward application as a channel material in field effect transistors. In this letter, we report on a new approach to engineer a band gap in graphene field effect devices (FED) by controlled structural modification of the graphene channel itself. The conductance in the FEDs is switched between a conductive "on-state" to an insulating "off-state" with more than six orders of magnitude difference in conductance. Above a critical value of an electric field applied to the FED gate under certain environmental conditions, a chemical modification takes place to form insulating graphene derivatives. The effect can be reversed by electrical fields of opposite polarity or short current pulses to recover the initial state. These reversible switches could potentially be applied to non-volatile memories and novel neuromorphic processing concepts.
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