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arxiv: 2508.07351 · v1 · pith:GQMGX25I · submitted 2025-08-10 · cond-mat.mtrl-sci

Experimental Realization of the Topologically Nontrivial Phase in Monolayer Si₂Te₂

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classification cond-mat.mtrl-sci
keywords ml-siphaseexperimentalmonolayerrealizationsteptopologicalabsence
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The free-standing monolayer Si$_2$Te$_2$ (ML-Si$_2$Te$_2$) has been theoretically predicted to host a room-temperature quantum spin Hall phase. However, its experimental realization remains challenge due to the absence of a three-dimensional counterpart. Here, we demonstrate that HfTe$_2$ serves as an ideal substrate for the epitaxial growth of ML-Si$_2$Te$_2$, preserving its topological phase. Scanning tunneling microscopy and spectroscopy confirm a strain-free ${(1 \times 1)}$ lattice of ML-Si$_2$Te$_2$, along with a sizable band gap, which is well captured by first-principles calculations. Moreover, distinct edge states, independent of step geometry and exhibiting a broad spatial distribution, are observed at ML-Si$_2$Te$_2$ step edges, underscoring its topological nature.

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