Improved Subthreshold Slope in an InAs Nanowire Heterostructure Field-Effect Transistor

Lind, Erik; Persson, Ann; Samuelson, Lars; Wernersson, Lars‐Erik

doi:10.1021/nl052468b

Cited by 138 publications

(123 citation statements)

References 12 publications

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“…One example is the GHz operation of InAs nanowire transistors [28] even when the quasi-dc characteristics exhibit hysteresis. [29] We now turn to data showing that surface states do not impede high fidelity transduction of biological/ionic signals.…”

Section: Below Instead Point To Hmentioning

confidence: 99%

Hybrid Nanowire Ion-to-Electron Transducers for Integrated Bioelectronic Circuitry

et al. 2017

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Abstract.A key task in the emerging field of bioelectronics is the transduction between ionic/protonic and electronic signals at high fidelity. This is a considerable challenge since the two carrier types exhibit intrinsically different physics and are best supported by very different materials types -electronic signals in inorganic semiconductors and ionic/protonic signals in organic or bio-organic polymers, gels or electrolytes. Here we demonstrate a new class of organic-inorganic transducing interface featuring semiconducting nanowires electrostatically gated using a solid proton-transporting hygroscopic polymer. This model platform allows us to study the basic transducing mechanisms as well as deliver high fidelity signal conversion by tapping into and drawing together the best candidates from traditionally disparate realms of electronic materials research. By combining complementary n− and p−type transducers we demonstrate functional logic with significant potential for scaling towards highdensity integrated bioelectronic circuitry.

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Section: Below Instead Point To Hmentioning

confidence: 99%

Hybrid Nanowire Ion-to-Electron Transducers for Integrated Bioelectronic Circuitry

et al. 2017

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“…The metallic CoSi 2 may serve as the source-drain contacts to the Si in the heterostructure; it is the first step to produce a nanoscale field-effect transistor. 30,31 We have selected Co and Si for our study since Co silicides possess very interesting and important properties. Single crystalline CoSi has ferromagnetic properties which were the focus of intensive research.…”

mentioning

confidence: 99%

In-situ TEM Observation of Repeating Events of Nucleation in Epitaxial Growth of Nano CoSi₂ in Nanowires of Si

Chou

Cheng

et al. 2008

Nano Lett.

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The formation of CoSi and CoSi 2 in Si nanowires at 700 and 800°C, respectively, by point contact reactions between nanodots of Co and nanowires of Si have been investigated in situ in a ultrahigh vacuum high-resolution transmission electron microscope. The CoSi 2 has undergone an axial epitaxial growth in the Si nanowire and a stepwise growth mode was found. We observed that the stepwise growth occurs repeatedly in the form of an atomic step sweeping across the CoSi 2 /Si interface. It appears that the growth of a new step or a new silicide layer requires an independent event of nucleation. We are able to resolve the nucleation stage and the growth stage of each layer of the epitaxial growth in video images. In the nucleation stage, the incubation period is measured, which is much longer than the period needed to grow the layer across the silicide/Si interface. So the epitaxial growth consists of a repeating nucleation and a rapid stepwise growth across the epitaxial interface. This is a general behavior of epitaxial growth in nanowires. The axial heterostructure of CoSi 2 /Si/CoSi 2 with sharp epitaxial interfaces has been obtained. A discussion of the kinetics of supply limited and source-limited reaction in nanowire case by point contact reaction is given. The heterostructures are promising as high performance transistors based on intrinsic Si nanowires.

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“…A wide range of NW-based devices and systems, including transistors and circuits Huang, Duan, Cui, Lauhon, Kim & Lieber, 2001;Zhong et al, 2003), light emitters Wang et al, 2001;Huang, Mao, Feick, Yan, Wu, Kind, Weber, Russo & Yang, 2001;Duan et al, 2003), and sensors ) have been explored. NWFETs based on III-V (Dayeh, Soci, Yu, Yu & Wang, 2007;Dayeh, Aplin, Zhou, Yu, Yu & Wang, 2007;Bryllert et al, 2006;Lind et al, 2006;Thelander et al, 2004;Huang et al, 2005;) and II-VI (Goldberger et al, 2005;Ng et al, 2004) compound semiconductor materials have demonstrated promising FET characteristics in various gate geometries, namely, top-gate (Wang et al, 2004;2003), back-gate (Huang et al, 2005;Duan et al, 2001), wrap-around-gate (Ng et al, 2004;Bryllert et al, 2006), and core-shell structures. InSb and InAs NWs, in particular, are attractive candidates for NWFETs due to their high electron mobility at room temperature (Sze, 1981) and low contact resistance (Woodall et al, 1981).…”

Section: Background and Motivationmentioning

confidence: 99%

“…However, full band (FB) models are necessary to understand on-off current ratios and radio frequency (RF) power. Although there are series of reports on the experimental realizations of InSb and InAs NWFETs Ashley et al, 1997;Chau et al, 2005;Radosavljevic et al, 2008;Lind et al, 2006;Dayeh, Aplin, Zhou, Yu, Yu &Wang, 2007;Bryllert et al, 2006;Thelander et al, 2004;Ng et al, 2004), we find very few attempts to theoretically model them.…”

Section: Background and Motivationmentioning

confidence: 99%

“…They can be considered promising candidates for future high-speed, low-power electronic devices because of their narrow bandgap (E g = 0.35 eV for InAs, for example) implying a small electron effective mass, which yields a very high mobility. For undoped InAs, the mobility can be as high as μ n = 33000cm 2 /Vs, compared with μ n = 1500cm 2 /Vs for Si (Lind et al, 2006). Furthermore, the large intravalley separation energy of InAs allows for a high saturated velocity, v sat = 4 ×10 7 cm/s.…”

Section: Introductionmentioning

confidence: 99%

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Modeling and Performance Analysis of III-V Nanowire Field-Effect Transistors

Khayer

Lake²

2010

Nanowires Science and Technology

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Improved Subthreshold Slope in an InAs Nanowire Heterostructure Field-Effect Transistor

Cited by 138 publications

References 12 publications

Hybrid Nanowire Ion-to-Electron Transducers for Integrated Bioelectronic Circuitry

Hybrid Nanowire Ion-to-Electron Transducers for Integrated Bioelectronic Circuitry

In-situ TEM Observation of Repeating Events of Nucleation in Epitaxial Growth of Nano CoSi₂ in Nanowires of Si

Modeling and Performance Analysis of III-V Nanowire Field-Effect Transistors

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Improved Subthreshold Slope in an InAs Nanowire Heterostructure Field-Effect Transistor

Cited by 138 publications

References 12 publications

Hybrid Nanowire Ion-to-Electron Transducers for Integrated Bioelectronic Circuitry

Hybrid Nanowire Ion-to-Electron Transducers for Integrated Bioelectronic Circuitry

In-situ TEM Observation of Repeating Events of Nucleation in Epitaxial Growth of Nano CoSi2 in Nanowires of Si

Modeling and Performance Analysis of III-V Nanowire Field-Effect Transistors

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In-situ TEM Observation of Repeating Events of Nucleation in Epitaxial Growth of Nano CoSi₂ in Nanowires of Si