Abstract

The transfer of charge carriers across the optically excited hetero-interface of graphene and semiconducting transition metal dichalcogenides (TMDCs) is the key to convert light to electricity, although the intermediate steps from the creation of excitons in TMDC to the collection of free carriers in the graphene layer are not fully understood. Here, we investigate photo-induced charge transport across graphene–MoS2 and graphene–WSe2 hetero-interfaces using time-dependent photoresistance relaxation with varying temperature, wavelength, and gate voltage. In both types of heterostructures, we observe an unprecedented resonance in the inter-layer charge transfer rate as the Fermi energy (EF) of the graphene layer is tuned externally with a global back gate. We attribute this to a resonant quantum tunneling from the excitonic state of the TMDC to EF of the graphene layer and outline a new method to estimate the excitonic binding energies (Eb) in the TMDCs, which are found to be 400 meV and 460 meV in MoS2 and WSe2 layers, respectively. The gate tunability of the inter-layer charge transfer timescales may allow precise engineering and readout of the optically excited electronic states at graphene–TMDC interfaces.

Highlights

  • Ranjit Kashid,1 Jayanta Kumar Mishra,1 Avradip Pradhan,1 Tanweer Ahmed,1,a) Saloni Kakkar,1 Pranav Mundada,1 Preeti Deshpande,2 Kallol Roy,1 Ambarish Ghosh,2 and Arindam Ghosh1,2,b)

  • The van der Waals heterostructures of graphene and transition metal dichalcogenides (TMDCs) are outstanding optoelectronic elements1–22 and represent atomic scale prototypes of donor–acceptor (DA) complexes,23–25 where the conversion of photons to free charge carriers can be manipulated with excellent control

  • The ultra-fast cross-interface selective transfer of the photo-excited delocalized charge carriers has been demonstrated in graphene–TMDC19–22 heterostructures, occurring with picosecond timescales

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Summary

APL Materials

Cite as: APL Mater. 8, 091114 (2020); doi: 10.1063/5.0020396 Submitted: 1 July 2020 • Accepted: 31 August 2020 • Published Online: 22 September 2020 Ranjit Kashid,1 Jayanta Kumar Mishra,1 Avradip Pradhan,1 Tanweer Ahmed,1,a) Saloni Kakkar,1 Pranav Mundada,1 Preeti Deshpande,2 Kallol Roy,1 Ambarish Ghosh,2 and Arindam Ghosh1,2,b)

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