Tips for (TS) optimization
The tips only work in Gaussian 03/09
Internal Coordinates
keywords "nosymm" and "cartesian" may help you to avoid the horrible "error in internal coordinates"
Also, you can go on cesca and try version b, c, d, which apparently defines internal coordinates slightly differently.
If you use keyword "cartesian", set "maxcycles=100" because at 101 it starts going crazy for no reason. Then, wait and restart the job.
If you need "cartesian" but also a constrained optimization, a useful tip is to add a -1 in front of frozen atoms:
H -1 0.000 0.000 0.000
Standard Optimization
Remebmber to use GaussView's Force Field optimization before going further if your structure is sketchy
If it is still "ugly", you may use your favourite DFT method with a reduced basis set such as STO-3G
TS search
Useful Keywords
You will have notice that this is the hardest. Some keywords that helped me:
maxstep=X to see where the algorithm "lost" the TS. Very slow method. Alternatively, ask me (cgoehry@iciq.es) my script to see in molden which atoms are concerned by the Eigenvalue-following TS search
vshift=X in case the optimization goes up and down very quickly (with metal atoms).
Useful tricks
The calculation of force constants (calcfc) is extremely demanding. So you can do it, or use one of the following ways around (use checkpoint files):
1) Compute the force constant at a lower level, and use it at your favourite level. Ex:
#p "method" freq=noraman STO-3G
--Link1--
#p opt=(TS,readfc,noeigentest) "method" 6-31G*
2) Use the QST3 algorithm. Remember in Gaussian you have to put in order reactant, product and THEN TS.
3)A possibility if you want to "renew" your force constant set:
when you find what a good guess for your ts, export it (ts.xyz), optimise normally with maxstep=10,maxcycles=10 or so, you'll go down (product.xyz), then "mirror" the change in coordinates. Ex:
paste product.xyz ts.xyz > temp.xyz
awk '{print $1,2*$2-$6,2*$3-$7,2*$4-$8}' temp.xyz > reactant.xyz
Then, use those structure within a QST3 scheme