IV.A.4. (XIV.F.)

Relative enthalpies of isomers - Comparison of 298.15K enthalpies (kJ mol^-1)

Isomers of ClFO

index	Species	CAS number	Name	Relative experimental enthalpy (kJ mol^-1)	sketch
a	FClO	22363684	chlorosyl fluoride
b	ClOF	34240863	Chlorine hypofluorite

The calculated enthalpies include the calculated and scaled vibrational zero-point energy.

Methods with predefined basis sets
composite	G1	NC NC
	G2MP2	NC NC
	G2	NC NC
	G3	NC NC
	G3B3	NC NC
	G4	NC NC
	CBS-Q	NC NC

Methods with standard basis sets
		STO-3G	3-21G	3-21G*	6-31G	6-31G*	6-31G**	6-31+G**	6-311G*	6-311G**	6-31G(2df,p)	6-311+G(3df,2p)	TZVP	cc-pVDZ	cc-pVTZ	cc-pVQZ	aug-cc-pVDZ	aug-cc-pVTZ	aug-cc-pVQZ	cc-pV(T+d)Z	aug-cc-pV(T+d)Z	cc-pCVDZ	cc-pCVTZ	daug-cc-pVTZ
hartree fock	HF	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC
hartree fock	ROHF																				NC
density functional	LSDA	NC NC		NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
	BLYP	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
	B1B95	NC NC		NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC	NC NC	NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
	B3LYP	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC
	B3LYPultrafine		NC NC			NC NC	NC NC	NC NC	NC NC			NC NC	NC NC	NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
	B3PW91	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
	mPW1PW91	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
	M06-2X	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC		NC NC	NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
	PBEPBE	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
	PBEPBEultrafine		NC NC			NC NC	NC NC	NC NC	NC NC			NC NC	NC NC	NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
	PBE1PBE	NC NC		NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
	HSEh1PBE	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
	TPSSh	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC
	wB97X-D	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC
	B97D3	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC
		STO-3G	3-21G	3-21G*	6-31G	6-31G*	6-31G**	6-31+G**	6-311G*	6-311G**	6-31G(2df,p)	6-311+G(3df,2p)	TZVP	cc-pVDZ	cc-pVTZ	cc-pVQZ	aug-cc-pVDZ	aug-cc-pVTZ	aug-cc-pVQZ	cc-pV(T+d)Z	aug-cc-pV(T+d)Z	cc-pCVDZ	cc-pCVTZ	daug-cc-pVTZ
Moller Plesset perturbation	MP2	NC	NC	NC NC	NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC
	MP2=FULL	NC NC	NC	NC NC	NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC
	ROMP2																				NC NC
	MP3					NC NC		NC NC				NC NC	NC NC	NC NC	NC NC					NC NC	NC NC	NC NC	NC NC
	MP3=FULL		NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
	MP4		NC			NC NC				NC NC		NC NC	NC NC	NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
	MP4=FULL		NC			NC NC				NC NC		NC		NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
	B2PLYP	NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
	B2PLYP=FULL	NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
Configuration interaction	CID		NC NC	NC NC	NC NC	NC NC			NC NC			NC NC								NC NC	NC NC	NC NC	NC NC
Configuration interaction	CISD		NC NC	NC NC	NC NC	NC NC			NC NC			NC NC								NC NC	NC NC	NC NC	NC NC
		STO-3G	3-21G	3-21G*	6-31G	6-31G*	6-31G**	6-31+G**	6-311G*	6-311G**	6-31G(2df,p)	6-311+G(3df,2p)	TZVP	cc-pVDZ	cc-pVTZ	cc-pVQZ	aug-cc-pVDZ	aug-cc-pVTZ	aug-cc-pVQZ	cc-pV(T+d)Z	aug-cc-pV(T+d)Z	cc-pCVDZ	cc-pCVTZ	daug-cc-pVTZ
Quadratic configuration interaction	QCISD		NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
	QCISD(T)					NC NC			NC NC			NC NC	NC NC	NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
	QCISD(T)=FULL					NC NC		NC NC				NC NC		NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC
Coupled Cluster	CCD		NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC		NC NC	NC NC		NC NC	NC NC	NC NC	NC NC
	CCSD					NC NC					NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC	NC NC	NC NC	NC NC	NC NC
	CCSD=FULL					NC NC					NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC
	CCSD(T)					NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC
	CCSD(T)=FULL					NC NC						NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC
		STO-3G	3-21G	3-21G*	6-31G	6-31G*	6-31G**	6-31+G**	6-311G*	6-311G**	6-31G(2df,p)	6-311+G(3df,2p)	TZVP	cc-pVDZ	cc-pVTZ	cc-pVQZ	aug-cc-pVDZ	aug-cc-pVTZ	aug-cc-pVQZ	cc-pV(T+d)Z	aug-cc-pV(T+d)Z	cc-pCVDZ	cc-pCVTZ	daug-cc-pVTZ

Methods with effective core potentials (select basis sets)
		CEP-31G	CEP-31G*	CEP-121G	CEP-121G*	LANL2DZ	SDD	cc-pVTZ-PP	aug-cc-pVTZ-PP	Def2TZVPP
hartree fock	HF	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC			NC NC
density functional	B3LYP	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC			NC NC
	PBEPBE									NC NC
	wB97X-D	NC NC	NC NC	NC NC	NC NC	NC NC	NC NC
Moller Plesset perturbation	MP2	NC	NC NC	NC	NC NC	NC	NC			NC NC

NC = not calculated

For descriptions of the methods (AM1, HF, MP2, ...) and basis sets (3-21G, 3-21G*, 6-31G, ...) see the glossary in section I.C. Predefined means the basis set used is determined by the method.
gaw refers to the group additivity method implemeted in the NIST Chemistry Webbook.

See section III.C.1 List or set vibrational scaling factors to change the scale factors used here.
See section III.C.2 Calculate a vibrational scaling factor for a given set of molecules to determine the least squares best scaling factor.

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Release 22	May 2022
NIST Standard Reference Database 101

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IV.A.4. (XIV.F.)

Relative enthalpies of isomers - Comparison of 298.15K enthalpies (kJ mol-1)

Isomers of ClFO

Relative enthalpies of isomers - Comparison of 298.15K enthalpies (kJ mol^-1)