Unveiling the Critical Intermediate Stages During Chemical Vapor Deposition of Two-Dimensional Rhenium Diselenide

Abstract: Two-dimensional (2D) transition metal dichalcogenides (TMDs) are promising materials for numerous emergent applications. Here, we apply atomic-resolution scanning transmission electron microscopy (TEM) to resolve the intermediate stages during chemical vapor deposition (CVD) synthesis of 2D rhenium diselenide (ReSe2). Contradictory to the conventional growth models proposed previously, stable intermediate species, viz., molecular metal chalcogenide clusters, are experimentally unveiled. These molecular cluster… Show more

“…Here, we address the precise generation of the metastable T’ (space group: P21/m) and T (space group: P‐3m1) phases in 1L ReS 2 and ReSe 2 [ 17 , 18 ] from the original T’’ phase (space group: P‐1) under e – beam exposure. Our experimental and density functional theory (DFT) results reveal that the T and T’ phases are stabilized by in‐plane compressive strain in the ReS 2 and ReSe 2 monolayers with negligible out‐of‐plane strain, which is induced by the knock‐on effect [ 19 ] of S or Se atoms from high energy e – beam irradiation.…”

Sub‐Nanometer Electron Beam Phase Patterning in 2D Materials

“…Here, we address the precise generation of the metastable T’ (space group: P21/m) and T (space group: P‐3m1) phases in 1L ReS 2 and ReSe 2 [ 17 , 18 ] from the original T’’ phase (space group: P‐1) under e – beam exposure. Our experimental and density functional theory (DFT) results reveal that the T and T’ phases are stabilized by in‐plane compressive strain in the ReS 2 and ReSe 2 monolayers with negligible out‐of‐plane strain, which is induced by the knock‐on effect [ 19 ] of S or Se atoms from high energy e – beam irradiation.…”

Sub‐Nanometer Electron Beam Phase Patterning in 2D Materials