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High Current Density Electrical Breakdown of TiS3 Nanoribbon-Based Field-Effect Transistors

机译:TiS3纳米带基场效应晶体管的高电流密度电击穿

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摘要

The high field transport characteristics of nanostructured transistors based on layered materials are not only important from a device physics perspective but also for possible applications in next generation electronics. With the growing promise of layered materials as replacements to conventional silicon technology, the high current density properties of the layered material titanium trisulfide (TiS3) are studied here. The high breakdown current densities of up to 1.7 x 10(6) A cm(-2) are observed in TiS3 nanoribbon-based field-effect transistors, which are among the highest found in semiconducting nanomaterials. Investigating the mechanisms responsible for current breakdown, a thermogravimetric analysis of bulk TiS3 is performed and the results with density functional theory and kinetic Monte Carlo calculations are compared. In conclusion, the oxidation of TiS3 and subsequent desorption of sulfur atoms play an important role in the electrical breakdown of the material in ambient conditions. The results show that TiS3 is an attractive material for high power applications and lend insight into the thermal and defect activated mechanisms responsible for electrical breakdown in nanostructured devices.
机译:基于层状材料的纳米结构晶体管的高场传输特性不仅从器件物理学的角度来看很重要,而且对于下一代电子设备中的可能应用也很重要。随着层状材料替代传统硅技术的希望越来越大,这里研究了层状材料三硫化钛(TiS3)的高电流密度特性。在基于TiS3纳米带的场效应晶体管中观察到高达1.7 x 10(6)A cm(-2)的高击穿电流密度,这是半导体纳米材料中最高的。为了研究造成电流击穿的机理,对块状TiS3进行了热重分析,并比较了密度泛函理论和动力学蒙特卡洛计算的结果。总之,TiS3的氧化和随后硫原子的解吸在环境条件下材料的电击穿中起重要作用。结果表明,TiS3是高功率应用的有吸引力的材料,有助于深入了解引起纳米结构器件电击穿的热和缺陷激活机制。

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  • 来源
    《Advanced Functional Materials》 |2017年第13期|1605647.1-1605647.9|共9页
  • 作者

    Molina-Mendoza Aday J.; Island Joshua O.; Paz Wendel S.; Manuel Clamagirand Jose; Ramon Ares Jose; Flores Eduardo; Leardini Fabrice; Sanchez Carlos; Agrait Nicolas; Rubio-Bollinger Gabino; van der Zant Herre S. J.; Ferrer Isabel J.; Palacios J. J.; Castellanos-Gomez Andres;

  • 作者单位

    Univ Autonoma Madrid, Dept Fis Mat Condensada, Campus Cantoblanco, E-28049 Madrid, Spain;

    Delft Univ Technol, Kavli Inst Nanosci, Lorentzweg 1, NL-2628 CJ Delft, Netherlands|Univ Calif Santa Barbara, Dept Phys, Santa Barbara, CA 93106 USA;

    Univ Autonoma Madrid, Dept Fis Mat Condensada, Campus Cantoblanco, E-28049 Madrid, Spain;

    Univ Autonoma Madrid, Mat Interest Renewable Energies Grp, Dept Fis Mat, Campus Cantoblanco, E-28049 Madrid, Spain;

    Univ Autonoma Madrid, Mat Interest Renewable Energies Grp, Dept Fis Mat, Campus Cantoblanco, E-28049 Madrid, Spain;

    Univ Autonoma Madrid, Mat Interest Renewable Energies Grp, Dept Fis Mat, Campus Cantoblanco, E-28049 Madrid, Spain;

    Univ Autonoma Madrid, Mat Interest Renewable Energies Grp, Dept Fis Mat, Campus Cantoblanco, E-28049 Madrid, Spain;

    Univ Autonoma Madrid, Mat Interest Renewable Energies Grp, Dept Fis Mat, Campus Cantoblanco, E-28049 Madrid, Spain|Inst Ciencia Mat Nicolas Cabrera, Campus Cantoblanco, E-28049 Madrid, Spain;

    Univ Autonoma Madrid, Dept Fis Mat Condensada, Campus Cantoblanco, E-28049 Madrid, Spain|Inst Madrileno Estudios Avanzados Nanociencia IMD, Campus Cantoblanco, E-28049 Madrid, Spain|Univ Autonoma Madrid, Condensed Matter Phys Ctr IFIMAC, E-28049 Madrid, Spain;

    Univ Autonoma Madrid, Dept Fis Mat Condensada, Campus Cantoblanco, E-28049 Madrid, Spain|Univ Autonoma Madrid, Condensed Matter Phys Ctr IFIMAC, E-28049 Madrid, Spain;

    Delft Univ Technol, Kavli Inst Nanosci, Lorentzweg 1, NL-2628 CJ Delft, Netherlands;

    Univ Autonoma Madrid, Mat Interest Renewable Energies Grp, Dept Fis Mat, Campus Cantoblanco, E-28049 Madrid, Spain|Inst Ciencia Mat Nicolas Cabrera, Campus Cantoblanco, E-28049 Madrid, Spain;

    Univ Autonoma Madrid, Dept Fis Mat Condensada, Campus Cantoblanco, E-28049 Madrid, Spain|Univ Autonoma Madrid, Condensed Matter Phys Ctr IFIMAC, E-28049 Madrid, Spain;

    Inst Madrileno Estudios Avanzados Nanociencia IMD, Campus Cantoblanco, E-28049 Madrid, Spain;

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