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Characterization of the Edge States in Colloidal Bi 2 Se 3 Platelets.

Jesper R MoesJara F VliemPedro M M C de MeloThomas C WigmansAndrés R Botello-MéndezRafael G MendesElla F van BrenkIngmar SwartLucas Maisel LiceránHenk T C StoofChristophe DelerueZeila ZanolliDaniel A M Vanmaekelbergh
Published in: Nano letters (2024)
The remarkable development of colloidal nanocrystals with controlled dimensions and surface chemistry has resulted in vast optoelectronic applications. But can they also form a platform for quantum materials, in which electronic coherence is key? Here, we use colloidal, two-dimensional Bi 2 Se 3 crystals, with precise and uniform thickness and finite lateral dimensions in the 100 nm range, to study the evolution of a topological insulator from three to two dimensions. For a thickness of 4-6 quintuple layers, scanning tunneling spectroscopy shows an 8 nm wide, nonscattering state encircling the platelet. We discuss the nature of this edge state with a low-energy continuum model and ab initio GW-Tight Binding theory. Our results also provide an indication of the maximum density of such states on a device.
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