| 1 |
Adsorption of the NH3, NO, NO2, CO2, and CO gas molecules on blue phosphorene: A first-principles study
Safari F, Moradinasab M, Fathipour M, Kosina H
Applied Surface Science, 464, 153, 2019 |
| 2 |
A simple descriptor for binding and charge transfer at blue phosphorene-metal interfaces
Sharma D, Gautam G, Narasimhan S
Applied Surface Science, 492, 16, 2019 |
| 3 |
Tailoring the electronic properties of graphyne/blue phosphorene heterostructure via external electric field and vertical strain
Wang YS, Song NH, Yang XH, Zhang J, Xu B, Li M, Zheng YF, Yang DP
Chemical Physics Letters, 730, 277, 2019 |
| 4 |
Two-dimensional blue-phosphorene-phase germanium monochalcogenide photocatalysts for water splitting: From ultraviolet to visible absorption
Sun LP, Cui Y, Peng L, Du JY, Wang SF, Huang YC
Journal of Catalysis, 373, 67, 2019 |
| 5 |
Hydrogenated and halogenated blue phosphorene as Dirac materials: A first principles study
Sun ML, Wang SK, Yu J, Tang WC
Applied Surface Science, 392, 46, 2017 |
| 6 |
Enhanced hydrophilic and conductive properties of blue phosphorene doped with Si atom
Zhang WX, Zhao JW, He WH, Luan LJ, He C
Chemical Physics Letters, 675, 20, 2017 |
| 7 |
Electronic structure and optical properties for blue phosphorene/graphene-like GaN van der Waals heterostructures
Guo JJ, Zhou ZP, Wang TX, Lu ZS, Yang ZX, Liu C
Current Applied Physics, 17(12), 1714, 2017 |
| 8 |
A first-principles study of light non-metallic atom substituted blue phosphorene
Sun ML, Tang WC, Ren QQ, Wang SK, Yu J, Du YH
Applied Surface Science, 356, 110, 2015 |
