I want to calculate the surface free energy find the stable surface termination. As I read we need to know Gibb's free energy and chemical Potential.
My question is "How can we calculate the Gibb's free energy and chemical potential from VASP?"
Is Free Energy (F) and Gibb's free energy Same in VASP? F = U-TS.
I want to calculate the stable surface termination in Pt3Ni(001), so i need the values for Pt and Ni.
I appreciate your valuable suggestions.
Thank you.
Sharma
Gibb's Free energy and Chemical Potential
Moderators: Global Moderator, Moderator
-
sharma
- Newbie
- Posts: 19
- Joined: Wed Jul 28, 2010 8:30 am
Gibb's Free energy and Chemical Potential
Last edited by sharma on Mon Sep 05, 2011 5:16 am, edited 1 time in total.
-
alex
- Hero Member
- Posts: 585
- Joined: Tue Nov 16, 2004 2:21 pm
- License Nr.: 5-67
- Location: Germany
Gibb's Free energy and Chemical Potential
Hi sharma,
it does not work in an automatic way. You have to do it by hand:
a) calc. the minimum energy structure
b) make a frequency calculation
c) calc. from the modes the zero-point energy and the contributions to H and S
Cheers,
alex
PS: One of my papers contains an outline: JPC B 108 (2004) 14652-62
it does not work in an automatic way. You have to do it by hand:
a) calc. the minimum energy structure
b) make a frequency calculation
c) calc. from the modes the zero-point energy and the contributions to H and S
Cheers,
alex
PS: One of my papers contains an outline: JPC B 108 (2004) 14652-62
Last edited by alex on Mon Sep 05, 2011 12:33 pm, edited 1 time in total.
-
vistawanted
Gibb's Free energy and Chemical Potential
In first principle area, we normally use G(T) = H_conf + H_vib -T*S_conf - T*S_vib, where H_vib and S_vib are calculated through phonon calculation (by Frozen-phonon or DFPT method) and quansi-harmonic approxmation (QHA). If the pressure was 0, enthalpy equals to internal energy. Then we can change the formular to G(T) = E_tot + F_vib(T).
Last edited by vistawanted on Wed Sep 14, 2011 6:10 am, edited 1 time in total.