具有环绕金属-绝缘体栅极的PbSi肖特基钳位晶体管的电子输运特性
Electronic transport properties of PbSi Schottky-clamped transistors with a surrounding metal-insulator gate.
作者信息
Zhang Lishu, Li Yifan, Li Tao, Li Hui
机构信息
Key Laboratory for Liquid-Solid Structural Evolution and Processing of Materials, Ministry of Education, Shandong University Jinan 250061 People's Republic of China
出版信息
RSC Adv. 2018 Jan 4;8(3):1519-1527. doi: 10.1039/c7ra11653e. eCollection 2018 Jan 2.
Sustaining Moore's law requires the design of new materials and the construction of FET. Herein, we investigated theoretically the electronic transport properties of PbSi nanowire Schottky-clamped transistors with a surrounding metal-insulator gate by employing MD simulations and the NEGF method within the extended Hückel frame. The conductance of PbSi nanowire transistors shows ballistic and symmetrical features because of the Schottky contact and the resonance transmission peak, which is gate-controlled. Interestingly, the PbSi(8,17) nanowire FET shows a high ON/OFF ratio and proves to be a typical Schottky contact between atoms as described by the EDD and EDP metrics.
维持摩尔定律需要设计新材料并构建场效应晶体管(FET)。在此,我们通过在扩展休克尔框架内采用分子动力学(MD)模拟和非平衡格林函数(NEGF)方法,从理论上研究了具有周围金属 - 绝缘体栅极的PbSi纳米线肖特基钳位晶体管的电子输运特性。由于肖特基接触和共振传输峰,PbSi纳米线晶体管的电导呈现出弹道和对称特征,且该共振传输峰受栅极控制。有趣的是,PbSi(8,17)纳米线场效应晶体管显示出高的开/关比,并且如通过电子密度差(EDD)和电子密度投影(EDP)度量所描述的那样,证明是原子之间典型的肖特基接触。
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