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Electrically Tunable Tunneling and Spectral Response in WSe2/h-BN/CdSe/Graphene Heterostructure
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- Title
- Electrically Tunable Tunneling and Spectral Response in WSe2/h-BN/CdSe/Graphene Heterostructure
- Issued Date
- 2026-05
- Citation
- SMALL, v.22, no.35
- Type
- Article
- Author Keywords
- optoelectronic device ; quantum dots ; spectral responsivity ; tunneling device ; 2D materials ; heterostructure
- Keywords
- CHARGE-TRANSFER ; WAALS ; PHOTOTRANSISTOR ; TRANSPORT
- ISSN
- 1613-6810
- Abstract
-
Mixed-dimensional heterostructures consisting of zero- and two-dimensional materials offer a promising platform for optoelectronic devices, as the versatility of material combination allows tunable optical properties. Bias-induced approaches provide an additional means to tune the optical properties beyond the intrinsic band alignment of van der Waals junctions. Here, bias-induced tunneling characteristics are achieved in vertically stacked WSe2/h-BN/CdSe quantum dots/graphene heterostructures by employing the top graphene electrode to regulate carrier transport across the h-BN barrier. The electrical analyses based on the Simmons approximation demonstrate tunneling-mediated charge transfer through thin h-BN layers and bias-dependent modulation of the barrier height. Furthermore, tunneling-induced exciton dissociation in WSe2 and CdSe QDs is observed through spectral responsivity and scanning photocurrent measurements. This work establishes a voltage-dependent tunneling platform that enables deterministic control of carrier dynamics in mixed-dimensional optoelectronic devices.
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- Publisher
- WILEY-V C H VERLAG GMBH
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