Noticed this when importing USC-Mech-ii.
RMG predicted some reactions that matched USC-Mech reactions, and created a H2CC species:
But the USC thermo is for the singlet:
Which is much more stable.
The DFT_QCI_Thermo database has both singlet and triplet in.
I am not sure what the reaction should make.
Probably we should have a state-crossing reaction, a bit like the 1,2-Birad_to_alkene family, that reacts H2CC(T) + M <=> C2CC(S) + M.
There may be other issues though - I'm not sure when RMG makes a 2T and when a 2S, nor am I sure if they are equally reactive in terms of matching nodes in reaction families.
See also:
Noticed this when importing USC-Mech-ii.
RMG predicted some reactions that matched USC-Mech reactions, and created a H2CC species:
But the USC thermo is for the singlet:
Which is much more stable.
The DFT_QCI_Thermo database has both singlet and triplet in.
I am not sure what the reaction should make.
Probably we should have a state-crossing reaction, a bit like the
1,2-Birad_to_alkenefamily, that reactsH2CC(T) + M <=> C2CC(S) + M.There may be other issues though - I'm not sure when RMG makes a 2T and when a 2S, nor am I sure if they are equally reactive in terms of matching nodes in reaction families.
See also: