Dresden 2017 – scientific programme
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DS: Fachverband Dünne Schichten
DS 14: 2D Materials Beyond Graphene II (jointly with CPP)
DS 14.5: Talk
Monday, March 20, 2017, 17:00–17:15, REC/PHY C213
Second-harmonic imaging microscopy: a powerful tool for time-resolved investigation of electron dynamics in TMDC heterostructures — •Jonas Zimmermann, Gerson Mette, and Ulrich Höfer — Philipps-Universität Marburg, Germany
Since the discovery of extraordinary luminescence of
MoS2 monolayers, 2D transition metal dichalcogenides (TMDC) have
been in the spotlight of the materials science community. In
particular, heterostructures of different 2D materials attract
attention due to their possible application in optoelectronics. As
the efficiency of such devices is expected to depend strongly on the
relative orientation of the individual layers, experimental
techniques to characterize the electron transfer dynamics in
dependence on the stacking angle are
required.
Here, we present results of our new SHG imaging microscopy setup for
time-resolved studies on interfaces of 2D materials. This technique
allows us to quantify the crystal structure via polarization
dependent measurements and gives us access to the electron dynamics
via time-resolved pump-probe experiments. We demonstrate its
capabilities with measurements performed on CVD grown WS2 and MoS2
monolayer flakes. The optical excitation tuned to 2.1 eV matches the
energies of A- and B-exciton of WS2 and MoS2, respectively. Strong
pump-induced features are observed and assigned to exciton
generation. The excitonic lifetimes of the two materials correspond
to values obtained in linear optical spectroscopy. The results
reveal that SHG imaging microscopy is ideally suited to explore the
effects of layer stacking on the charge transfer within 2D
heterostructures.