期刊文献+

Silicene transistors——A review

Silicene transistors——A review
下载PDF
导出
摘要 Free standing silicene is a two-dimensional silicon monolayer with a buckled honeycomb lattice and a Dirac band structure. Ever since its first successful synthesis in the laboratory, silicene has been considered as an option for post-silicon electronics, as an alternative to graphene and other two-dimensional materials. Despite its theoretical high carrier mobility,the zero band gap characteristic makes pure silicene impossible to use directly as a field effect transistor(FET) operating at room temperature. Here, we first review the theoretical approaches to open a band gap in silicene without diminishing its excellent electronic properties and the corresponding simulations of silicene transistors based on an opened band gap.An all-metallic silicene FET without an opened band gap is also introduced. The two chief obstacles for realization of a silicene transistor are silicene’s strong interaction with a metal template and its instability in air. In the final part, we briefly describe a recent experimental advance in fabrication of a proof-of-concept silicene device with Dirac ambipolar charge transport resembling a graphene FET, fabricated via a growth-transfer technique. Free standing silicene is a two-dimensional silicon monolayer with a buckled honeycomb lattice and a Dirac band structure. Ever since its first successful synthesis in the laboratory, silicene has been considered as an option for post-silicon electronics, as an alternative to graphene and other two-dimensional materials. Despite its theoretical high carrier mobility,the zero band gap characteristic makes pure silicene impossible to use directly as a field effect transistor(FET) operating at room temperature. Here, we first review the theoretical approaches to open a band gap in silicene without diminishing its excellent electronic properties and the corresponding simulations of silicene transistors based on an opened band gap.An all-metallic silicene FET without an opened band gap is also introduced. The two chief obstacles for realization of a silicene transistor are silicene's strong interaction with a metal template and its instability in air. In the final part, we briefly describe a recent experimental advance in fabrication of a proof-of-concept silicene device with Dirac ambipolar charge transport resembling a graphene FET, fabricated via a growth-transfer technique.
出处 《Chinese Physics B》 SCIE EI CAS CSCD 2015年第8期106-115,共10页 中国物理B(英文版)
基金 supported by the National Natural Science Foundation of China(Grant Nos.11274016,11474012,and 1207141) the National Basic Research Program of China(Grant Nos.2013CB932604 and 2012CB619304)
关键词 SILICENE two-dimensional materials TRANSISTOR electronic device silicene,two-dimensional materials,transistor,electronic device
  • 相关文献

参考文献37

  • 1Neek-Amal M,Sadeghi A,Berdiyorov G R,Peeters F M. Applied Physics Letters . 2013
  • 2Kaloni T P,Tahir M,Schwingenschlogl U. Science Reports . 2013
  • 3Liu W,Wang Z F,Shi Q W,Yang J,Liu F. Physical Review B Condensed Matter and Materials Physics . 2009
  • 4Yu B,Chang L,Ahmed S,Wang H,Bell S,Yang C Y,Tabery C,Ho C,Xiang Q,King T J,Bokor J,Hu C,Lin M R,Kyser D. IEEE Int.Electron Devices Meeting . 2002
  • 5Tao L,Cinquanta E,Chiappe D,Grazianetti C,Fanciulli M,Dubey M,Molle A,Akinwande D. Nat.Nanotech . 2015
  • 6C. Kamal,Aparna Chakrabarti,Arup Banerjee.??Ab initio investigation on hybrid graphite-like structure made up of silicene and boron nitride(J)Physics Letters A . 2014 (16-1)
  • 7Xiaodan Li,Shunqing Wu,Sen Zhou,Zizhong Zhu.??Structural and electronic properties of germanene/MoS 2 monolayer and silicene/MoS 2 monolayer superlattices(J)Nanoscale Research Letters . 2014 (1)
  • 8Yangyang Wang,Zeyuan Ni,Qihang Liu,Ruge Quhe,Jiaxin Zheng,Meng Ye,Dapeng Yu,Junjie Shi,Jinbo Yang,Ju Li,Jing Lu.??All‐Metallic Vertical Transistors Based on Stacked Dirac Materials(J)Adv. Funct. Mater. . 2015 (1)
  • 9Dvorak M,Wu Z. Physical Review B Condensed Matter and Materials Physics . 2014
  • 10Dvorak M,Oswald W,Wu Z. Science Reports . 2013

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部