1H-Pyrazole

Formula: C₃H₄N₂
Molecular weight: 68.0773
IUPAC Standard InChI: InChI=1S/C3H4N2/c1-2-4-5-3-1/h1-3H,(H,4,5)
IUPAC Standard InChIKey: WTKZEGDFNFYCGP-UHFFFAOYSA-N
CAS Registry Number: 288-13-1
Chemical structure:
This structure is also available as a 2d Mol file or as a computed 3d SD file
The 3d structure may be viewed using Java or Javascript.
Other names: Pyrazole; 1,2-Diazole
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Gas phase thermochemistry data

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Data compiled as indicated in comments:
DRB - Donald R. Burgess, Jr.
ALS - Hussein Y. Afeefy, Joel F. Liebman, and Stephen E. Stein

Quantity	Value	Units	Method	Reference	Comment
Δ_fH°_gas	177.4	kJ/mol	N/A	Zaheeruddin and Lodhi, 1991	Value computed using Δ_fH_solid° value of 112.4 kj/mol from Zaheeruddin and Lodhi, 1991 and Δ_subH° value of 65.0 kj/mol from Jimenez, Roux, et al., 1987.; DRB
Δ_fH°_gas	179.4 ± 0.8	kJ/mol	Ccb	Jimenez, Roux, et al., 1987	see Jimenez, Roux, et al., 1986; ALS
Δ_fH°_gas	181. ± 8.8	kJ/mol	Ccb	Bedford, Edmondson, et al., 1962	ALS

Reaction thermochemistry data

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Data compiled as indicated in comments:
B - John E. Bartmess
RCD - Robert C. Dunbar

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Individual Reactions

C₃H₃N₂^- + = 1H-Pyrazole

By formula: C₃H₃N₂^- + H⁺ = C₃H₄N₂

Quantity	Value	Units	Method	Reference	Comment
Δ_rH°	1479. ± 10.	kJ/mol	G+TS	Gianola, Ichino, et al., 2006	gas phase; B
Δ_rH°	1479. ± 10.	kJ/mol	G+TS	Taft, Anvia, et al., 1986	gas phase; value altered from reference due to change in acidity scale; B
Quantity	Value	Units	Method	Reference	Comment
Δ_rG°	1449. ± 9.6	kJ/mol	N/A	Gianola, Ichino, et al., 2006	gas phase; B
Δ_rG°	1449. ± 9.6	kJ/mol	IMRE	Taft, Anvia, et al., 1986	gas phase; value altered from reference due to change in acidity scale; B

+ 1H-Pyrazole = ( • )

By formula: Li⁺ + C₃H₄N₂ = (Li⁺ • C₃H₄N₂)

Quantity	Value	Units	Method	Reference	Comment
Δ_rH°	187. ± 17.	kJ/mol	CIDT	Huang and Rodgers, 2002	RCD

+ 1H-Pyrazole = ( • )

By formula: Na⁺ + C₃H₄N₂ = (Na⁺ • C₃H₄N₂)

Quantity	Value	Units	Method	Reference	Comment
Δ_rH°	128. ± 9.2	kJ/mol	CIDT	Huang and Rodgers, 2002	RCD

+ 1H-Pyrazole = ( • )

By formula: K⁺ + C₃H₄N₂ = (K⁺ • C₃H₄N₂)

Quantity	Value	Units	Method	Reference	Comment
Δ_rH°	84. ± 3.	kJ/mol	CIDT	Huang and Rodgers, 2002	RCD

Gas phase ion energetics data

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Data evaluated as indicated in comments:
HL - Edward P. Hunter and Sharon G. Lias

Data compiled as indicated in comments:
B - John E. Bartmess
LL - Sharon G. Lias and Joel F. Liebman
LBLHLM - Sharon G. Lias, John E. Bartmess, Joel F. Liebman, John L. Holmes, Rhoda D. Levin, and W. Gary Mallard
LLK - Sharon G. Lias, Rhoda D. Levin, and Sherif A. Kafafi
RDSH - Henry M. Rosenstock, Keith Draxl, Bruce W. Steiner, and John T. Herron

Quantity	Value	Units	Method	Reference	Comment
Proton affinity (review)	894.1	kJ/mol	N/A	Hunter and Lias, 1998	HL
Quantity	Value	Units	Method	Reference	Comment
Gas basicity	860.5	kJ/mol	N/A	Hunter and Lias, 1998	HL

Ionization energy determinations

IE (eV)	Method	Reference	Comment
9.38 ± 0.03	PE	Lichtenberger, Copenhaver, et al., 1988	LL
9.25 ± 0.01	PI	Main-Bobo, Loesik, et al., 1986	LBLHLM
9.27 ± 0.05	PE	Baker, Betteridge, et al., 1970	RDSH
9.15	PE	Daamen, Oskam, et al., 1979	Vertical value; LLK
9.15	PE	Cradock, Findlay, et al., 1973	Vertical value; LLK

Appearance energy determinations

Ion	AE (eV)	Other Products	Method	Reference	Comment
CH₂N⁺	11.72 ± 0.05	C₂H₂N	PI	Main-Bobo, Loesik, et al., 1986	LBLHLM
C₂H₃N⁺	11.76 ± 0.02	CHN	PI	Main-Bobo, Loesik, et al., 1986	LBLHLM

De-protonation reactions

C₃H₃N₂^- + = 1H-Pyrazole

By formula: C₃H₃N₂^- + H⁺ = C₃H₄N₂

Quantity	Value	Units	Method	Reference	Comment
Δ_rH°	1479. ± 10.	kJ/mol	G+TS	Gianola, Ichino, et al., 2006	gas phase; B
Δ_rH°	1479. ± 10.	kJ/mol	G+TS	Taft, Anvia, et al., 1986	gas phase; value altered from reference due to change in acidity scale; B
Quantity	Value	Units	Method	Reference	Comment
Δ_rG°	1449. ± 9.6	kJ/mol	N/A	Gianola, Ichino, et al., 2006	gas phase; B
Δ_rG°	1449. ± 9.6	kJ/mol	IMRE	Taft, Anvia, et al., 1986	gas phase; value altered from reference due to change in acidity scale; B

Gas Chromatography

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Data compiled by: NIST Mass Spectrometry Data Center, William E. Wallace, director

Kovats' RI, non-polar column, isothermal

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Column type	Active phase	Temperature (C)	I	Reference	Comment
Capillary	OV-101	110.	864.	Zhuravleva, 2000	50. m/0.3 mm/0.4 μm, He
Capillary	OV-101	110.	864.	Golovnya, Kuz'menko, et al., 1999	50. m/0.3 mm/0.4 μm, He

Van Den Dool and Kratz RI, non-polar column, temperature ramp

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Column type	Active phase	I	Reference	Comment
Packed	SE-30	837.	Peng, Ding, et al., 1988	He, Supelcoport and Chromosorb, 40. C @ 4. min, 10. K/min, 250. C @ 60. min; Column length: 3.05 m

References

Go To: Top, Gas phase thermochemistry data, Reaction thermochemistry data, Gas phase ion energetics data, Gas Chromatography, Notes

Zaheeruddin and Lodhi, 1991
Zaheeruddin, M.; Lodhi, Z.H., Enthalpies of formation of some cyclic compounds, Phys. Chem. (Peshawar Pak.), 1991, 10, 111-118. [all data]

Jimenez, Roux, et al., 1987
Jimenez, P.; Roux, M.V.; Turrion, C., Thermochemical properties of N-heterocyclic compounds. I. Enthalpies of combustion, vapour pressures and enthalpies of sublimation, and enthalpies of formation of pyrazole, imidazole, indazole, and benzimidazole, J. Chem. Thermodyn., 1987, 19, 985-992. [all data]

Jimenez, Roux, et al., 1986
Jimenez, P.; Roux, M.V.; Turrion, C.; Gomis, F., Thermochemical properties of some N-heterocyclic compounds, J. Calorim. Anal. Therm. Thermodyn. Chim., 1986, 17, 469-470. [all data]

Bedford, Edmondson, et al., 1962
Bedford, A.F.; Edmondson, P.B.; Mortimer, C.T., Heats of formation and bond energies. Part VI. n-Butyliso-butyraldimine, n-butylisobutylamine, pyrazole, and imidazole, J. Chem. Soc., 1962, 2927-2931. [all data]

Gianola, Ichino, et al., 2006
Gianola, A.J.; Ichino, T.; Kato, S.; Bierbaum, V.M.; Lineberger, W.C., Thermochemical studies of pyrazolide, J. Phys. Chem. A, 2006, 110, 27, 8457-8466, https://doi.org/10.1021/jp057499+ . [all data]

Taft, Anvia, et al., 1986
Taft, R.W.; Anvia, F.; Taagepera, M.; Catalan, J.; Elgueroy, J., Electrostatic proximity effects in the relative basicities of pyrazole, imidazole, pyridazine, and pyrimidine, J. Am. Chem. Soc., 1986, 108, 3237. [all data]

Huang and Rodgers, 2002
Huang, H.; Rodgers, M.T., Sigma versus Pi interactions in alkali metal ion binding to azoles: Threshold collision-induced dissociation and ab initio theory studies, J. Phys. Chem. A, 2002, 106, 16, 4277, https://doi.org/10.1021/jp013630b . [all data]

Hunter and Lias, 1998
Hunter, E.P.; Lias, S.G., Evaluated Gas Phase Basicities and Proton Affinities of Molecules: An Update, J. Phys. Chem. Ref. Data, 1998, 27, 3, 413-656, https://doi.org/10.1063/1.556018 . [all data]

Lichtenberger, Copenhaver, et al., 1988
Lichtenberger, D.L.; Copenhaver, A.S.; Gray, H.B.; Marshall, J.L.; Hopkins, M.D., Valence electronic structure of bis(Pyrazolyl)-bridged iridium dicarbonyl dimers. Electronic effects of 3,5-dimethylpyraxzolyl substitution on metal-metal interactions, Inorg. Chem., 1988, 27, 4488. [all data]

Main-Bobo, Loesik, et al., 1986
Main-Bobo, J.; Loesik, S.; Gase, W.; Baer, T.; Mommers, A.; Holmes, J., The thermochemistry and dissociation dynamics of internal-energy selected pyrazole and imidazole ions, J. Am. Chem. Soc., 1986, 108, 677. [all data]

Baker, Betteridge, et al., 1970
Baker, A.D.; Betteridge, D.; Kemp, N.R.; Kirby, R.E., Application of photoelectron spectrometry to pesticide analysis. Photoelectron spectra of fivemembered heterocycles and related molecules, Anal. Chem., 1970, 42, 1064. [all data]

Daamen, Oskam, et al., 1979
Daamen, H.; Oskam, A.; Stufkens, D.J.; Waaijers, H.W., Bonding properties of group VIB metal pentacarbonyl azole complexes studied by electronic absorption, photoelectron, ¹³C NMR and vibrational spectroscopy, Inorg. Chim. Acta, 1979, 34, 253. [all data]

Cradock, Findlay, et al., 1973
Cradock, S.; Findlay, R.H.; Palmer, M.H., The molecular energy levels of the azoles: A study by photoelectron spectroscopy and ab initio molecular orbital calculations, Tetrahedron, 1973, 29, 2173. [all data]

Zhuravleva, 2000
Zhuravleva, I.L., Evaluation of the polarity and boiling points of nitrogen-containing heterocyclic compounds by gas chromatography, Russ. Chem. Bull. (Engl. Transl.), 2000, 49, 2, 325-328, https://doi.org/10.1007/BF02494682 . [all data]

Golovnya, Kuz'menko, et al., 1999
Golovnya, R.V.; Kuz'menko, T.E.; Zhuravleva, I.L., Gas chromatographic indicator of the ability of five- and six-membered heterocyclic nitrogen-containing compounds for self-association in pure liquids, Russ. Chem. Bull. (Engl. Transl.), 1999, 48, 4, 726-729, https://doi.org/10.1007/BF02496256 . [all data]

Peng, Ding, et al., 1988
Peng, C.T.; Ding, S.F.; Hua, R.L.; Yang, Z.C., Prediction of Retention Indexes I. Structure-Retention Index Relationship on Apolar Columns, J. Chromatogr., 1988, 436, 137-172, https://doi.org/10.1016/S0021-9673(00)94575-8 . [all data]

Notes

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Symbols used in this document:

AE Appearance energy

Δ_fH°_gas Enthalpy of formation of gas at standard conditions

Δ_rG° Free energy of reaction at standard conditions

Δ_rH° Enthalpy of reaction at standard conditions
Data from NIST Standard Reference Database 69: NIST Chemistry WebBook
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AE	Appearance energy
Δ_fH°_gas	Enthalpy of formation of gas at standard conditions
Δ_rG°	Free energy of reaction at standard conditions
Δ_rH°	Enthalpy of reaction at standard conditions