Publication detail
Direct Observation of Structural Phase Transformations during Phosphorene Formation on Cu(111)
DAVID, J. JEŘÁBEK, F. PROCHÁZKA, P. ČERNÝ, M. CIOBANU, C. PRŮŠA, S. KODAMBAKA, S. ŠIKOLA, T. KOLÍBAL, M.
English title
Direct Observation of Structural Phase Transformations during Phosphorene Formation on Cu(111)
Type
journal article in Web of Science
Language
en
Original abstract
Blue phosphorene, a two-dimensional, hexagonal-structured, semiconducting phosphorus, has gained attention as it is considered easier to synthesize on metal surfaces than its allotrope, black phosphorene. Recent studies report different structures of phosphorene, for example, on Cu(111), but the underlying mechanisms of their formation are not known. Here, using a combination of in situ ultrahigh vacuum low-energy electron microscopy and in vacuo scanning tunneling microscopy, we determine the time evolution of the surface structure and morphology during the deposition of phosphorus on single-crystalline Cu(111). We find that during the early stages of deposition phosphorus intermixes with Cu, resulting in copper phosphide structures. With the increasing surface concentration of phosphorus, the phosphide phase disappears, and a blue phosphorene layer forms, followed by the self-assembly of highly ordered phosphorus clusters that eventually grow into multilayer islands. We attribute the unexpected transformation of stable phosphide to a phosphorene layer to the presence of a large concentration of P2 dimers on the surface. Our results constitute direct evidence for a growth mode leading to a flat phosphorene layer via an intermediary phase, which could underpin the growth of other 2D materials on strongly interacting substrates.
English abstract
Blue phosphorene, a two-dimensional, hexagonal-structured, semiconducting phosphorus, has gained attention as it is considered easier to synthesize on metal surfaces than its allotrope, black phosphorene. Recent studies report different structures of phosphorene, for example, on Cu(111), but the underlying mechanisms of their formation are not known. Here, using a combination of in situ ultrahigh vacuum low-energy electron microscopy and in vacuo scanning tunneling microscopy, we determine the time evolution of the surface structure and morphology during the deposition of phosphorus on single-crystalline Cu(111). We find that during the early stages of deposition phosphorus intermixes with Cu, resulting in copper phosphide structures. With the increasing surface concentration of phosphorus, the phosphide phase disappears, and a blue phosphorene layer forms, followed by the self-assembly of highly ordered phosphorus clusters that eventually grow into multilayer islands. We attribute the unexpected transformation of stable phosphide to a phosphorene layer to the presence of a large concentration of P2 dimers on the surface. Our results constitute direct evidence for a growth mode leading to a flat phosphorene layer via an intermediary phase, which could underpin the growth of other 2D materials on strongly interacting substrates.
Keywords in English
2D materials; phosphorene; copper phosphide; phase transformation; growthmode
Released
22.01.2025
Publisher
AMER CHEMICAL SOC
Location
WASHINGTON
ISSN
1936-086X
Volume
19
Number
4
Pages from–to
4289–4298
Pages count
10
BIBTEX
@article{BUT196782,
author="Jiří {David} and František {Jeřábek} and Pavel {Procházka} and Miroslav {Černý} and Stanislav {Průša} and Suneel {Kodambaka} and Tomáš {Šikola} and Miroslav {Kolíbal},
title="Direct Observation of Structural Phase Transformations during Phosphorene Formation on Cu(111)",
year="2025",
volume="19",
number="4",
month="January",
pages="4289--4298",
publisher="AMER CHEMICAL SOC",
address="WASHINGTON",
issn="1936-086X"
}