Noel Berkovitch scite author profile

We have measured the radial distribution and diffusion of active dopant atoms in individual silicon nanowires grown by the vapor-liquid-solid (VLS) method. Our method is based on successive surface etching of a portion of a contacted nanowire, followed by measurement of the potential difference between the etched and unetched areas using Kelvin probe force microscopy (KPFM). The radial dopant distribution is obtained by fitting the measured potentials with a three-dimensional solution of Poisson equation. We find that the radial active dopant distribution decreases by almost 2 orders of magnitude from the wire surface to its core even when there is no indication for tapering. In addition, the dopant profile is consistent with a very large diffusion coefficient of D ∼ 1 × 10 -19 m 2 s -1 . This implies that phosphorus (P) diffusion during the VLS growth is remarkably high and subsequent thermal annealing must be used when a homogeneous dopant distribution is required.

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Direct measurement of nanowire Schottky junction depletion region

Koren

Berkovitch

Azriel

et al. 2011

Appl. Phys. Lett.

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Nano-Scale Measurements of Dopants and Electronic Impurities in Individual Silicon Nanowires Using Kelvin Probe Force Microscopy

Koren¹,

Allen²,

Givan³

et al. 2011

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Development of 60V PMOS for power management applications

Vardi

Berkovitch

Klein

et al. 2012

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Process effective power mosfet integrated in 0.18um platform with very Low Rdson

Levy

Levin

Heiman

et al. 2013

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Noel Berkovitch

Measurement of Active Dopant Distribution and Diffusion in Individual Silicon Nanowires

Direct measurement of nanowire Schottky junction depletion region

Nano-Scale Measurements of Dopants and Electronic Impurities in Individual Silicon Nanowires Using Kelvin Probe Force Microscopy

Development of 60V PMOS for power management applications

Process effective power mosfet integrated in 0.18um platform with very Low Rdson

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