The enthalpies of
formation are computed for a large number of
per- and poly fluoroalkyl substances (PFAS) using a connectivity-based
hierarchy (CBH) approach. A combination of different electronic structure
methods are used to provide the reference data in a hierarchical manner.
The ANL0 method, in conjunction with the active thermochemical tables,
provides enthalpies of formation for smaller species with subchemical
accuracy. Coupled-cluster theory with explicit correlations are used
to compute enthalpies of formation for intermediate species, based
upon the ANL0 results. For the largest PFAS, including perfluorooctanoic
acid (PFOA) and heptafluoropropylene oxide dimer acid (GenX), coupled-cluster
theory with local correlations is used. The sequence of homodesmotic
reactions proposed by the CBH are determined automatically by a new
open-source code, AutoCBH. The results are the first reported
enthalpies of formation for the majority of the species. A convergence
analysis and global uncertainty quantification confirm that the enthalpies
of formation at 0 K should be accurate to within ±5 kJ/mol. This
new approach is not limited to PFAS, but can be applied to many chemical
systems