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Monolayer organic field-effect transistors 被引量:8

Monolayer organic field-effect transistors
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摘要 Monolayer organic field-effect transistors(OFETs) are attracting worldwide interest in device physics and novel applications due to their ultrathin active layer for two-dimensional charge transport. The monolayer films are generally prepared by thermal evaporation, the Langmuir technique or self-assembly process, etc., but their electrical performance is relatively lower than corresponding thick films. From 2011, the performance of monolayer OFETs has been boosted by using the monolayer molecular crystals(MMCs) as active channels, which opened up a new era for monolayer OFETs. In this review, recent progress of monolayer OFETs, including the preparation of monolayer films, their OFET performance and applications are summarized.Finally, perspectives of monolayer OFETs in the near future are also discussed. Monolayer organic field-effect transistors(OFETs) are attracting worldwide interest in device physics and novel applications due to their ultrathin active layer for two-dimensional charge transport. The monolayer films are generally prepared by thermal evaporation, the Langmuir technique or self-assembly process, etc., but their electrical performance is relatively lower than corresponding thick films. From 2011, the performance of monolayer OFETs has been boosted by using the monolayer molecular crystals(MMCs) as active channels, which opened up a new era for monolayer OFETs. In this review, recent progress of monolayer OFETs, including the preparation of monolayer films, their OFET performance and applications are summarized.Finally, perspectives of monolayer OFETs in the near future are also discussed.
出处 《Science China Chemistry》 SCIE EI CAS CSCD 2019年第3期313-330,共18页 中国科学(化学英文版)
基金 supported by the Ministry of Science and Technology of China (2017YFA0204704, 2016YFB0401100) the National Natural Science Foundation of China (21805284, 21873108) the Chinese Academy of Sciences (Hundred Talents Plan and the Strategic Priority Research Program (XDB30000000, XDB12030300)
关键词 MONOLAYER films organic FIELD-EFFECT TRANSISTORS MONOLAYER molecular crystals(MMCs) MOBILITY monolayer films organic field-effect transistors monolayer molecular crystals(MMCs) mobility
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  • 1Rogers JA, Someya T, Huang Y. Materials and mechanics for stretchable electronics. Science 2010,327,5973: 1603-1607.
  • 2Someya T, Dodabalapur A, Huang J, See KC, Katz HE. Chemical and physical sensing by organic field-effect transistors and related devices. Adv Mater, 2010, 22(34): 3799-3811.
  • 3Kim DH, Xiao J, Song J, Huang Y, Rogers JA. Stretchable, curvilinear electronics based on inorganic materials. Adv Mater, 2010, 22(19): 2108-2124.
  • 4Sekitani T, Someya T. Stretchable, large-area organic electronics. Adv Mater, 2010, 22(20): 2228-2246.
  • 5Cao Q, Kim HS, Pimparkar N, Kulkarni JP, Wang C, Shim M, Roy K, Alam MA, Rogers JA. Medium-scale carbon nanotube thin-film integrated circuits on flexible plastic substrates. Nature, 2008, 454(7203):495-500.
  • 6Ko HC, Stoykovich MP, Song J, Malyarchuk V, Choi WM, Yu CJ, Geddes JB 3rd, Xiao J, Wang S, Huang Y, Rogers JA. A hemispherical electronic eye camera based on compressible silicon optoelectronics. Nature, 2008,454(7205): 748-753.
  • 7Jung I, Xiao J, Malyarchuk V, Lu C, Li M, Liu Z, Yoon r, Huang Y, Rogers JA. Dynamically tunable hemispherical electronic eye camera system with adjustable zoom capability. Proc Natl Acad Sci USA, 2011,108(5): 1788-1793.
  • 8Chun KY, Oh Y, Rho J, Ahn JH, Kim YJ, Choi HR, Baik S. Highly conductive, printable and stretchable composite films of carbon nanotubes and silver. Nat Nanotechnol, 2010, 5(12): 853-857.
  • 9Kim RH, Kim DH, Xiao J, Kim BH, Park SI, Panilaitis B, Ghaffari R, Yao J, Li M, Liu Z, Malyarchuk V, Kim DG, Le AP, Nuzzo RG, Kaplan DL, Omenetto FG, Huang Y, Kang Z, Rogers JA. Waterproof AlInGaP optoelectronics on stretchable substrates with applications in biomedicine and robotics. Nat Mater, 2010, 9(11): 929-937.
  • 10Sekitani T, Nakajima H, Maeda H, Fukushima T, Aida T, Hata K, Someya T. Stretchable active-matrix organic light-emitting diode display using printable elastic conductors. Nat Mater, 2009, 8(6): 494-499.

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