We demonstrate tunable bistability and a strong negative differential resistance in InAs/GaSb core-shell nanowire devices embedding a radial broken-gap heterojunction. Nanostructures have been grown using a catalyst-free synthesis on a Si substrate. Current-voltage characteristics display a top peak-to-valley ratio of 4.8 at 4.2 K and 2.2 at room temperature. The Esaki effect can be modulated-or even completely quenched-by field effect, by controlling the band bending profile along the azimuthal angle of the radial heterostructure. Hysteretic behavior is also observed in the presence of a suitable resistive load. Our results indicate that high-quality broken-gap devices can be obtained using Au-free growth.
Tunable Esaki Effect in Catalyst-Free InAs/GaSb Core-Shell Nanowires / Rocci, Mirko; Rossella, Francesco; Gomes, U. P; Zannier, V; Rossi, F; Ercolani, Daniele; Sorba, Lucia; Beltram, Fabio; Roddaro, Stefano. - In: NANO LETTERS. - ISSN 1530-6984. - 16:12(2016), pp. 7950-7955-7955. [10.1021/acs.nanolett.6b04260]
Tunable Esaki Effect in Catalyst-Free InAs/GaSb Core-Shell Nanowires
ROSSELLA, FRANCESCO;ERCOLANI, Daniele;SORBA, LUCIA;
2016
Abstract
We demonstrate tunable bistability and a strong negative differential resistance in InAs/GaSb core-shell nanowire devices embedding a radial broken-gap heterojunction. Nanostructures have been grown using a catalyst-free synthesis on a Si substrate. Current-voltage characteristics display a top peak-to-valley ratio of 4.8 at 4.2 K and 2.2 at room temperature. The Esaki effect can be modulated-or even completely quenched-by field effect, by controlling the band bending profile along the azimuthal angle of the radial heterostructure. Hysteretic behavior is also observed in the presence of a suitable resistive load. Our results indicate that high-quality broken-gap devices can be obtained using Au-free growth.Pubblicazioni consigliate
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