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Direct Growth of Monolayer MoS$_2$ on Nanostructured Silicon Waveguides

We report for the first time the direct growth of Molybdenum disulfide (MoS$_2$) monolayers on nanostructured silicon-on-insulator waveguides. Our results indicate the possibility of utilizing the Chemical Vapour Deposition (CVD) on nanostructured photonic devices in a scalable process. Direct growth of 2D material on nanostructures rectifies many drawbacks of the transfer-based approaches. We show that the van der Waals materials grow conformally across the curves, edges, and the silicon-SiO$_2$ interface of the waveguide structure. Here, the waveguide structure used as a growth substrate is complex not just in terms of its geometry but also due to the two materials (Si and SiO$_2$) involved. A transfer-free method like this yields a novel approach for functionalizing nanostructured, integrated optical architectures with an optically active direct semiconductor.

preprint2022arXivOpen access
Athira KuppadakkathEmad NajafidehaghaniZiyang GanAlessandro TunizGia Quyet NgoHeiko KnopfFranz J. F. LöchnerFatemeh AbtahiTobias BucherSai ShradhaThomas KäsebierStefano PalombaNadja FeldePallabi PaulTobias UllspergerSven SchröderAdriana SzeghalmiThomas PertschIsabelle StaudeUwe ZeitnerAntony GeorgeAndrey TurchaninFalk Eilenberger
cond-mat.mes-hallphysics.app-phcond-mat.mtrl-sci
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Open access23 authors3 topics
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Athira KuppadakkathEmad NajafidehaghaniZiyang GanAlessandro TunizGia Quyet NgoHeiko KnopfFranz J. F. LöchnerFatemeh AbtahiTobias BucherSai ShradhaThomas KäsebierStefano PalombaNadja FeldePallabi PaulTobias UllspergerSven SchröderAdriana SzeghalmiThomas PertschIsabelle StaudeUwe ZeitnerAntony GeorgeAndrey TurchaninFalk Eilenberger

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