TY - JOUR
T1 - Stabilities of Isomers of Phosphorus on Transition Metal Substrates
AU - Yin, Yuling
AU - Gladkikh, Vladislav
AU - Li, Pai
AU - Zhang, Leining
AU - Yuan, Qinghong
AU - Ding, Feng
N1 - Publisher Copyright:
© 2021 American Chemical Society.
PY - 2021/12/14
Y1 - 2021/12/14
N2 - Great efforts have been dedicated to synthesizing phosphorene on transition metal surfaces, but there has been limited success until now. The strong interaction between phosphorus and the substrate may lead to many possible highly stable isomers of phosphorus, making the synthesis of phosphorene difficult. Here, we studied whether functionalizing transition metal surfaces by different phosphorous isomers can assist the epitaxial growth of blue phosphorene. Using density functional theory, we systematically explored five families of phosphorous isomers, blue phosphorene, modified blue phosphorene, surface phosphide, metal-phosphorus hybrid, and blue phosphorene on surface phosphide, on six different transition metal surfaces, Ag(111), Au(111), Cu(111), Co(0001), Ni(111), and Pt(111). It is found that blue phosphorene can be formed on less active transition metal surfaces, such as Ag(111) and Au(111), if the flux of phosphorus is sufficiently high. On more active transition metal surfaces, surface phosphides tend to form first and blue phosphorene may be formed on top of the surface phosphide. This study highlights the structural diversity of the transition metal surfaces in an active environment and provides guidance for the synthesis of phosphorene on transition metal surfaces.
AB - Great efforts have been dedicated to synthesizing phosphorene on transition metal surfaces, but there has been limited success until now. The strong interaction between phosphorus and the substrate may lead to many possible highly stable isomers of phosphorus, making the synthesis of phosphorene difficult. Here, we studied whether functionalizing transition metal surfaces by different phosphorous isomers can assist the epitaxial growth of blue phosphorene. Using density functional theory, we systematically explored five families of phosphorous isomers, blue phosphorene, modified blue phosphorene, surface phosphide, metal-phosphorus hybrid, and blue phosphorene on surface phosphide, on six different transition metal surfaces, Ag(111), Au(111), Cu(111), Co(0001), Ni(111), and Pt(111). It is found that blue phosphorene can be formed on less active transition metal surfaces, such as Ag(111) and Au(111), if the flux of phosphorus is sufficiently high. On more active transition metal surfaces, surface phosphides tend to form first and blue phosphorene may be formed on top of the surface phosphide. This study highlights the structural diversity of the transition metal surfaces in an active environment and provides guidance for the synthesis of phosphorene on transition metal surfaces.
UR - http://www.scopus.com/inward/record.url?scp=85120787967&partnerID=8YFLogxK
U2 - 10.1021/acs.chemmater.1c03489
DO - 10.1021/acs.chemmater.1c03489
M3 - Article
AN - SCOPUS:85120787967
SN - 0897-4756
VL - 33
SP - 9447
EP - 9453
JO - Chemistry of Materials
JF - Chemistry of Materials
IS - 23
ER -