I've been interested in looking at using NWChem to predict UV/VIS spectra. This post doesn't show how to do it but is rather just a look at what affects the positions of absorbances.
(although it more or less just involves
tddft
cis
nroots 24
end
task tddft energy)
I chose benzene and water as test cases.
Here's water:
 |
| water |
Reference spectrum in gas phase: http://www.lsbu.ac.uk/water/vibrat.html (166.5 nm) which tallies very well with 3-21g and 6-31g, but not at all with 6-31++g** or 3-21++g*.
Here's benzene:
The reference spectrum, while a bit diffuse, shows the main absorbance at ca 178 nm. Presumably that's in benzene, not water.
More basis sets:
(cat Benzene_631g/Outputs/nwch.nwout |egrep "Root|sci"|gawk '{print $4,$6}'>bz631g.dat)
Hi,
ReplyDeleteWhat the level of theory used?
All the best,
Felipe
the NWCHEM implementation of b3lyp. Looking back it would've been more informative and effective to vary the XC rather than the basis sets (e.g. the big difference in the performance of CAM-B3LYP vs most standard hybrid functionals is well-known)
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