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引用次数: 3
摘要
在我们对氮掺杂单层之字形GNR (ZGNR) fet器件性能的从头算研究中,ZGNR宽度从0.92 nm增加到1.78 nm,由于能带隙(Eg)的减小导致I min增加,导致I max bb0 I min比降低。在氮掺杂zgnr中,沟道带边缘空位的存在也会打开一个Eg,而空位浓度在很大程度上决定了器件的性能。此外,对氮掺杂双层ZGNR FET进行了仿真,与单层ZGNR FET相比,双层器件提供了更大的电流,而imax | imin降低。
Computational Study on the Performance Comparison of Monolayer and Bilayer Zigzag Graphene Nanoribbon FETs
In our ab initio study on the device performance of nitrogen-doped monolayer zigzag GNR (ZGNR) FETs, an increase in ZGNR width from 0.92 nm to 1.78 nm degrades the I max |I min ratio due to the decrease in the energy bandgap (Eg) which causes the I min to increase. It is also observed that the presence of vacancy at the edges of the channel ribbon can also open up an Eg in ZGNRs as nitrogen dopants, and the performance of such device depends greatly on the vacancy concentration. In addition, simulation was carried out on the nitrogen-doped bilayer ZGNR FET and comparing to the monolayer ZGNR FET, the bilayer device provides a larger current while the I max |I min is lowered.
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