Silicon nanowires: Electron holography studies of doped p-n junctions and biased Schottky barriers

Kai He; Jeong Hyun Cho; Yeonwoong Jung; S. Tom Picraux; John Cumings

doi:10.1088/0957-4484/24/11/115703

Silicon nanowires: Electron holography studies of doped p-n junctions and biased Schottky barriers

Kai He, Jeong Hyun Cho, Yeonwoong Jung, S. Tom Picraux, John Cumings

Electrical and Computer Engineering

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Abstract

We report an in situ examination of individual Si p-n junction nanowires (NWs) using off-axis electron holography (EH) during transmission electron microscopy. The SiNWs were synthesized by chemical vapor deposition with an axial dopant profile from n- to p-type, and then placed inside the transmission electron microscope as a cantilever geometry in contact with a movable Pt probe for in situ biasing measurements during simultaneous EH observations. The phase shift from EH indicates the potential shift between the p- and n-segments to be 1.03 ± 0.17 V due to the built-in voltage. The I-V characteristics of a single SiNW indicate the formation of a Schottky barrier between the NW tip and the movable Pt contact. EH observations show a strong concentration of electric field at this contact, preventing a change in the Si energy bands in the p-n junction region due to the applied bias.

Original language	English (US)
Article number	115703
Journal	Nanotechnology
Volume	24
Issue number	11
DOIs	https://doi.org/10.1088/0957-4484/24/11/115703
State	Published - Mar 22 2013

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title = "Silicon nanowires: Electron holography studies of doped p-n junctions and biased Schottky barriers",

abstract = "We report an in situ examination of individual Si p-n junction nanowires (NWs) using off-axis electron holography (EH) during transmission electron microscopy. The SiNWs were synthesized by chemical vapor deposition with an axial dopant profile from n- to p-type, and then placed inside the transmission electron microscope as a cantilever geometry in contact with a movable Pt probe for in situ biasing measurements during simultaneous EH observations. The phase shift from EH indicates the potential shift between the p- and n-segments to be 1.03 ± 0.17 V due to the built-in voltage. The I-V characteristics of a single SiNW indicate the formation of a Schottky barrier between the NW tip and the movable Pt contact. EH observations show a strong concentration of electric field at this contact, preventing a change in the Si energy bands in the p-n junction region due to the applied bias.",

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AU - He, Kai

AU - Cho, Jeong Hyun

AU - Jung, Yeonwoong

AU - Tom Picraux, S.

AU - Cumings, John

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Silicon nanowires: Electron holography studies of doped p-n junctions and biased Schottky barriers

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