Hyung-Sang Yuk scite author profile

We demonstrate lithographically fabricated Si nanowire field effect transistors (FETs) with long Si nanowires of tiny cross sectional size (∼3-5 nm) exhibiting high performance without employing complementarily doped junctions or high channel doping. These nanowire FETs show high peak hole mobility (as high as over 1200 cm(2)/(V s)), current density, and drive current as well as low drain leakage current and high on/off ratio. Comparison of nanowire FETs with nanobelt FETs shows enhanced performance is a result of significant quantum confinement in these 3-5 nm wires. This study suggests simple (no additional doping) FETs using tiny top-down nanowires can deliver high performance for potential impact on both CMOS scaling and emerging applications such as biosensing.

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Room-Temperature Quantum Confinement Effects in Transport Properties of Ultrathin Si Nanowire Field-Effect Transistors

Trivedi²,

Floresca³

et al. 2011

Nano Lett.

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Quantum confinement of carriers has a substantial impact on nanoscale device operations. We present electrical transport analysis for lithographically fabricated sub-5 nm thick Si nanowire field-effect transistors and show that confinement-induced quantum oscillations prevail at 300 K. Our results discern the basis of recent observations of performance enhancement in ultrathin Si nanowire field-effect transistors and provide direct experimental evidence for theoretical predictions of enhanced carrier mobility in strongly confined nanowire devices.

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Study on the Ring Type Stator Design Technique for a Traveling Wave Rotary Type Ultrasonic Motor

Yuk

Lim

2012

Jpn. J. Appl. Phys.

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An Analysis of the Resonance Characteristics of a Traveling Wave Type Ultrasonic Motor by Applying a Normal Force and Input Voltage

Yuk²,

Lim

et al. 2009

Ferroelectrics

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Design of a novel type ultrasonic motor for high torque generation

Yuk

Lim

2012

J Electroceram

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Hyung-Sang Yuk

Quantum Confinement Induced Performance Enhancement in Sub-5-nm Lithographic Si Nanowire Transistors

Room-Temperature Quantum Confinement Effects in Transport Properties of Ultrathin Si Nanowire Field-Effect Transistors

Study on the Ring Type Stator Design Technique for a Traveling Wave Rotary Type Ultrasonic Motor

An Analysis of the Resonance Characteristics of a Traveling Wave Type Ultrasonic Motor by Applying a Normal Force and Input Voltage

Design of a novel type ultrasonic motor for high torque generation

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