The effect of vacancies on the magnetic and optical properties of monolayer alpha lead oxide (α-PbO): A density functional theory study

“…This orbital splitting is caused by lattice distortion, as we have found in our previous studies of a-PbO monolayer systems. 63 Moreover, the d z 2 orbital makes the most significant contribution at the small peak near the Fermi level. Thus, we ensure that the unpaired electron occupies this orbital.…”

Effect of Ni atomic fraction on active species of graphene growth on Cu–Ni alloy catalysts: a density functional theory study

“…This orbital splitting is caused by lattice distortion, as we have found in our previous studies of a-PbO monolayer systems. 63 Moreover, the d z 2 orbital makes the most significant contribution at the small peak near the Fermi level. Thus, we ensure that the unpaired electron occupies this orbital.…”

Effect of Ni atomic fraction on active species of graphene growth on Cu–Ni alloy catalysts: a density functional theory study

“…munity of optoelectronics/photonics [17][18][19][20][85][86][87]. As we know, the structure-proper relationship of nanostructures has a great effect on the practical application.…”

“…In comparison to the bulk PbO, PbO nanostructures display intriguing properties due to the quantum confinement effect, which makes them hold great promise in the community of optoelectronics/photonics [ 17 , 18 , 19 , 20 , 85 , 86 , 87 ]. As we know, the structure–property relationship of nanostructures has a great effect on the practical application.…”

Lead Monoxide Nanostructures for Nanophotonics: A Review

Unlocking the dehalogenation potential of lead oxide (PbO) via its co-pyrolysis with polyvinyl chloride (PVC) and novel brominated flame retardants (NBFRs)