| 1 |
New insights into the surface relaxation and oxidation of chalcopyrite exposed to O-2 and H2O: A first-principles DFT study
Wei ZL, Li YB, Gao HM, Zhu YG, Qian GJ, Yao J
Applied Surface Science, 492, 89, 2019 |
| 2 |
Effect of nickel monolayer deposition on the structural and electronic properties of the low miller indices of (bcc) iron: A DFT study
Kwawu CR, Tia R, Adei E, Dzade NY, Catlow CRA, de Leeuw NH
Applied Surface Science, 400, 293, 2017 |
| 3 |
Surface transition in spin crossover nanoparticles
Mikolasek M, Nicolazzi W, Terki F, Molnar G, Bousseksou A
Chemical Physics Letters, 678, 107, 2017 |
| 4 |
Surface relaxation of Pt(111) and Cu/Pt(111) revealed by DEPES
Miszczuk A, Morawski I, Kucharczyk R, Nowicki M
Applied Surface Science, 373, 32, 2016 |
| 5 |
The process of dissociative adsorption of fluorine on Ge(001) surface
Stankiewicz B, Mikolajczyk P
Applied Surface Science, 384, 263, 2016 |
| 6 |
Structural relaxation of BaTiO3 slab with tetragonal (100) surface: Ab-initio comparison of different thickness
Goh ES, Ong LH, Yoon TL, Chew KH
Current Applied Physics, 16(11), 1491, 2016 |
| 7 |
The process of dissociation of Cl-2 molecule on the Ge(001)-p(1 x 2) surface
Stankiewicz B, Mikolajczyk P
Applied Surface Science, 335, 198, 2015 |
| 8 |
Structural and electronic properties of cubic KNbO3 (001) surfaces: A first-principles study
Luo BC, Wang XH, Tian EK, Li GW, Li LT
Applied Surface Science, 351, 558, 2015 |
| 9 |
Hydrogen induced metallization of ZnO (1(1)over-bar00) surface: Ab initio study
Usseinov AB, Kotomin EA, Akilbekov AT, Zhukovskii YF, Purans J
Thin Solid Films, 553, 38, 2014 |
| 10 |
Atomistic modeling of lattice relaxation in metallic nanocrystals
Gelisio L, Beyerlein KR, Scardi P
Thin Solid Films, 530, 35, 2013 |
