CO on Ni 111 surface: Difference between revisions
Line 73: | Line 73: | ||
*Small outward relaxation of surface due to adsorption: <math> \Delta d_{12} = (8.154-6.109)/2.038 = 0.4 % </math>. | *Small outward relaxation of surface due to adsorption: <math> \Delta d_{12} = (8.154-6.109)/2.038 = 0.4 % </math>. | ||
*CO geometry change: <math> d_{\mathrm{CO}} = 11.063 - 9.909 = 1.155 </math> <math>\AA</math>; <math> z_{\mathrm{C}} = 9.909 -8.154 = 1.755 </math> <math> \AA</math>. | *CO geometry change: <math> d_{\mathrm{CO}} = 11.063 - 9.909 = 1.155 </math> <math>\AA</math>; <math> z_{\mathrm{C}} = 9.909 -8.154 = 1.755 </math> <math> \AA</math>. | ||
*Visualize the structure using p4vasp: | |||
[[File:Fig CO on Ni111 1.png|500px]] | [[File:Fig CO on Ni111 1.png|500px]] | ||
Revision as of 09:30, 16 May 2017
Overview > Ni 100 surface relaxation > Ni 100 surface DOS > Ni 100 surface bandstructure > Ni 111 surface relaxation > CO on Ni 111 surface > Ni 111 surface high precision > partial DOS of CO on Ni 111 surface > vibrational frequencies of CO on Ni 111 surface > STM of graphite > STM of graphene > collective jumps of a Pt adatom on fcc-Pt (001): Nudged Elastic Band Calculation > List of tutorials
Task
Adsorbtion of a CO molecule at the top site of a Ni (111) surface.
Input
POSCAR
Ni - (111) + CO on-top 3.53 .70710678 .0000000 .000000 -0.35355339 0.6123724 .000000 .000000 .000000 5.1961524 5 1 1 selective dynamics direct .00000000 .00000000 .00000000 F F F .33333333 .66666667 .11111111 F F F .66666667 .33333333 .22222222 F F F .00000000 .00000000 .33333333 T T T .33333333 .66666667 .44444444 T T T .33333333 .66666667 .54029062 T T T .33333333 .66666667 .60298866 T T T
- CO molecule put above surface atom "on-top".
- .
- .
INCAR
ISTART = 0 ICHARG = 2 general: SYSTEM = CO adsorption on Ni(111) ENMAX = 400 ISMEAR = 2 ; SIGMA = 0.2 ALGO= Fast EDIFF = 1E-6 dynamic: NSW=100 POTIM = 0.2 IBRION = 1
KPOINTS
K-Points 0 Monkhorst-Pack 9 9 1 0 0 0
Calculation
- Two additional atom types (C and O) in the calculations: append C and O potentials to the POTCAR file.
- The sample output for the forces should look like the following:
POSITION TOTAL-FORCE (eV/Angst) ----------------------------------------------------------------------------------- 0.00000 0.00000 0.00000 0.000000 0.000000 0.175780 0.00000 1.44112 2.03805 0.000000 0.000000 -0.104008 1.24804 0.72056 4.07609 0.000000 0.000000 -0.036305 0.00000 0.00000 6.10852 0.000000 0.000000 -0.083336 0.00000 1.44112 8.15366 0.000000 0.000000 0.009539 0.00000 1.44112 9.90873 0.000000 0.000000 0.011228 0.00000 1.44112 11.06339 0.000000 0.000000 0.027102 ----------------------------------------------------------------------------------- total drift: -0.000093 -0.000213 0.019852
- Small outward relaxation of surface due to adsorption: Failed to parse (Conversion error. Server ("cli") reported: "[INVALID]"): {\displaystyle \Delta d_{12} = (8.154-6.109)/2.038 = 0.4 % } .
- CO geometry change: ; .
- Visualize the structure using p4vasp:
Download
To the list of examples or to the main page