Phosphorus is a crucial part of each organism and performs a key function, for instance, in vitality switch within the physique and inside cell membranes, bones and tooth. Phosphorus can also be particular as a result of it happens in quite a few totally different types (allotropes). For instance, there may be the extremely explosive, poisonous white phosphorus, the extra steady crimson phosphorus recognized from match heads, or the crystalline, semi-conducting black phosphorus. The latter has quite a few functions in digital gadgets.
The number of phosphorus compounds and their bodily and chemical properties will be additional prolonged by the self-assembly of two-dimensional phosphorus buildings on surfaces.
Varied two-dimensional layers
Researchers from a bunch led by Professor Ernst Meyer on the Division of Physics and the Swiss Nanoscience Institute on the College of Basel have now produced numerous two-dimensional phosphorus buildings on silver surfaces by evaporating phosphorus atoms. The work is revealed within the journal Nature Communications.
Along with chains and hexagonal rings, in addition they produced planar rings of 5 phosphorus atoms (phosphorus pentamers), every of which behaves like an anion, i.e., is negatively charged.
In an effort to assess whether or not such 2D layers consisting of phosphorus pentamers are appropriate for functions in nanoelectronics and nanooptics, it’s essential to characterize the properties of the atomic layer and examine the interactions with the metallic floor.
Significant knowledge by a mix of strategies
Utilizing a mix of atomic power and scanning tunneling spectroscopy at low temperatures of 4 kelvin (-269.15°C), the researchers discovered that the phosphorus pentamers retain their semiconducting properties on the silver floor.
“This distinguishes the phosphorus layer from a hexagonal graphene layer, for example, which is metallic when in direct contact with a metallic surface,” explains Dr. Rémy Pawlak, who supervised the experiments.
The phosphorus pentamer layer causes electrons to go from the steel into the phosphorus layer and a particular boundary layer, referred to as a p-type semiconductor-metal Schottky junction, is shaped.
“The formation of a Schottky junction at the interface could enable applications in field-effect transistors, in solar cells or as diodes,” provides Professor Ernst Meyer.
The outcomes have been confirmed by simulations carried out by analysis teams from Shenzhen and Shanghai in China.
Extra data:
Outhmane Chahib et al, Probing cost redistribution on the interface of self-assembled cyclo-P5 pentamers on Ag(111), Nature Communications (2024). DOI: 10.1038/s41467-024-50862-4
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2D layer of phosphorus pentamers exhibits semiconductor properties on silver floor (2024, August 9)
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