Issue 10, 2024

Valley-selective carrier transfer in SnS-based van der Waals heterostructures

Abstract

Valleytronics, i.e., use of the valley degree of freedom in semiconductors as an information carrier, is a promising alternative to conventional approaches for information processing. Transition metal dichalcogenides with degenerate K/K′ valleys have received attention as prototype 2D/layered semiconductors for valleytronics, but these systems rely on exotic effects such as the valley-Hall effect for electrical readout of the valley occupancy. Non-traditional valleytronic systems hosting sets of addressable non-degenerate valleys could overcome this limitation. In the van der Waals semiconductor Sn(II) sulfide (SnS), for instance, different bandgaps and band edges may allow manipulating the population of the X- and Y-valleys via charge transfer across interfaces to other layered semiconductors. Here, we establish this concept by comparing SnS flakes and SnS-based heterostructures. Cathodoluminescence spectroscopy shows a striking reversal of the luminescence intensity of the two valleys in SnS–GeS van der Waals stacks, which stems from a selective electron transfer from the Y-valley into GeS while X-valley electrons remain confined to SnS. Our results suggest that non-traditional systems, embodied here by SnS-based van der Waals heterostructures, open avenues for valley-selective readout relying on design parameters such as heterostructure band offsets that are among the core concepts of semiconductor technology.

Graphical abstract: Valley-selective carrier transfer in SnS-based van der Waals heterostructures

Supplementary files

Article information

Article type
Communication
Submitted
23 May 2024
Accepted
14 Aug 2024
First published
15 Aug 2024

Nanoscale Horiz., 2024,9, 1823-1832

Valley-selective carrier transfer in SnS-based van der Waals heterostructures

E. Sutter, H.-P. Komsa and P. Sutter, Nanoscale Horiz., 2024, 9, 1823 DOI: 10.1039/D4NH00231H

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