Butanoic acid

Formula: C₄H₈O₂
Molecular weight: 88.1051
IUPAC Standard InChI: InChI=1S/C4H8O2/c1-2-3-4(5)6/h2-3H2,1H3,(H,5,6)
IUPAC Standard InChIKey: FERIUCNNQQJTOY-UHFFFAOYSA-N
CAS Registry Number: 107-92-6
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: Butyric acid; n-Butanoic acid; n-Butyric acid; Ethylacetic acid; Propylformic acid; 1-Butyric acid; 1-Propanecarboxylic acid; n-C3H7COOH; Propanecarboxylic acid; Butanic acid; Buttersaeure; Kyselina maselna; UN 2820; 1-Butanoic acid; NSC 8415
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Gas phase thermochemistry data

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Data compiled as indicated in comments:
DRB - Donald R. Burgess, Jr.
GT - Glushko Thermocenter, Russian Academy of Sciences, Moscow

Quantity	Value	Units	Method	Reference	Comment
Δ_fH°_gas	-475.9 ± 4.0	kJ/mol	N/A	Lebedeva, 1964	Value computed using Δ_fH_liquid° value of -533.92±0.59 kj/mol from Lebedeva, 1964 and Δ_vapH° value of 58±4 kj/mol from missing citation.; DRB
Δ_fH°_gas	-475.9 ± 4.0	kJ/mol	Ccb	Lebedeva, 1964	Value computed using Δ_fH_liquid° from Lebedeva, 1964 and Δ_vapH° value of 58. kJ/mol from Konicek and Wadso, 1970.; DRB
Quantity	Value	Units	Method	Reference	Comment
S°_gas	353.26	J/mol*K	N/A	Stull D.R., 1969	See [ Stull D.R., 1969], acrylic acid, C3H4O2.; GT

Condensed phase thermochemistry data

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Data compiled as indicated in comments:
ALS - Hussein Y. Afeefy, Joel F. Liebman, and Stephen E. Stein
DH - Eugene S. Domalski and Elizabeth D. Hearing

Quantity	Value	Units	Method	Reference	Comment
Δ_fH°_liquid	-533.92 ± 0.59	kJ/mol	Ccb	Lebedeva, 1964	ALS
Quantity	Value	Units	Method	Reference	Comment
Δ_cH°_liquid	-2183.5 ± 0.59	kJ/mol	Ccb	Lebedeva, 1964	Corresponding Δ_fHº_liquid = -533.84 kJ/mol (simple calculation by NIST; no Washburn corrections); ALS
Quantity	Value	Units	Method	Reference	Comment
S°_liquid	225.3	J/mol*K	N/A	Martin and Andon, 1982	DH
S°_liquid	226.4	J/mol*K	N/A	Parks, Kelley, et al., 1929	Extrapolation below 90 K, 53.6 J/mol*K. Revision of previous data.; DH
S°_liquid	255.2	J/mol*K	N/A	Parks and Anderson, 1926	Extrapolation below 90 K, 82.42 J/mol*K.; DH

Constant pressure heat capacity of liquid

C_p,liquid (J/mol*K)	Temperature (K)	Reference	Comment
177.7	298.15	Martin and Andon, 1982	T = 13 to 450 K. Data also given by equation.; DH
178.	298.15	Konicek and Wadso, 1971	DH
176.1	290.7	Parks and Anderson, 1926	T = 89 to 291292 to 448 K. Value is unsmoothed experimental datum.; DH
176.1	298.	von Reis, 1881	T = 292 to 448 K.; DH

Gas phase ion energetics data

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Data evaluated as indicated in comments:
L - Sharon G. Lias

Data compiled as indicated in comments:
B - John E. Bartmess
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

View reactions leading to C₄H₈O₂⁺ (ion structure unspecified)

Quantity	Value	Units	Method	Reference	Comment
IE (evaluated)	10.17 ± 0.05	eV	N/A	N/A	L

Ionization energy determinations

IE (eV)	Method	Reference	Comment
10.17 ± 0.05	PIPECO	Butler, Fraser-Monteiro, et al., 1982	LBLHLM
10.24	EI	Holmes, Fingas, et al., 1981	LLK
10.24	EI	Holmes and Lossing, 1980	LLK
10.46	PE	Watanabe, Yokoyama, et al., 1973	LLK
10.16 ± 0.05	PI	Watanabe, Nakayama, et al., 1962	RDSH
10.38	PE	Benoit and Harrison, 1977	Vertical value; LLK
10.22	PE	Sustmann and Trill, 1972	Vertical value; LLK

Appearance energy determinations

Ion	AE (eV)	Other Products	Method	Reference	Comment
C₂H₄⁺	11.5 ± 0.1	C₂H₄O₂	PIPECO	Butler, Fraser-Monteiro, et al., 1982	T = 298K; LBLHLM
C₂H₄O₂⁺	10.42 ± 0.05	C₂H₄	PIPECO	Butler, Fraser-Monteiro, et al., 1982	T = 298K; LBLHLM
C₂H₄O₂⁺	10.60	C₂H₄	EI	Holmes and Lossing, 1980	LLK
C₂H₅⁺	11.6 ± 0.1	C₂H₃O₂	PIPECO	Butler, Fraser-Monteiro, et al., 1982	T = 298K; LBLHLM
C₂H₄₀₂⁺	10.60 ± 0.05	C₂H₄	EI	Holmes and Lossing, 1980, 2	LLK
C₃H₅O₂⁺	10.5 ± 0.1	CH₃	PIPECO	Butler, Fraser-Monteiro, et al., 1982	T = 298K; LBLHLM
C₃H₆⁺	11.4 ± 0.1	CH₂O₂	PIPECO	Butler, Fraser-Monteiro, et al., 1982	T = 298K; LBLHLM
C₃H₇⁺	10.96 ± 0.05	COOH	PIPECO	Butler, Fraser-Monteiro, et al., 1982	T = 298K; LBLHLM
C₄H₇O⁺	11.8 ± 0.1	OH	PIPECO	Butler, Fraser-Monteiro, et al., 1982	T = 298K; LBLHLM

De-protonation reactions

C₄H₇O₂^- + = Butanoic acid

By formula: C₄H₇O₂^- + H⁺ = C₄H₈O₂

Quantity	Value	Units	Method	Reference	Comment
Δ_rH°	1451. ± 8.4	kJ/mol	TDEq	Norrman and McMahon, 1999	gas phase; B
Δ_rH°	1450. ± 9.2	kJ/mol	G+TS	Caldwell, Renneboog, et al., 1989	gas phase; B
Δ_rH°	1450. ± 9.2	kJ/mol	G+TS	Cumming and Kebarle, 1978	gas phase; B
Quantity	Value	Units	Method	Reference	Comment
Δ_rG°	1420. ± 8.4	kJ/mol	IMRE	Caldwell, Renneboog, et al., 1989	gas phase; B
Δ_rG°	1420. ± 8.4	kJ/mol	IMRE	Cumming and Kebarle, 1978	gas phase; B

References

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

Lebedeva, 1964
Lebedeva, N.D., Heats of combustion of monocarboxylic acids, Russ. J. Phys. Chem. (Engl. Transl.), 1964, 38, 1435-1437. [all data]

Konicek and Wadso, 1970
Konicek, J.; Wadso, I., Enthalpies of vaporization of organic compounds. VII. Some carboxylic acids, Acta Chem. Scand., 1970, 24, 2612-26. [all data]

Stull D.R., 1969
Stull D.R., Jr., The Chemical Thermodynamics of Organic Compounds. Wiley, New York, 1969. [all data]

Martin and Andon, 1982
Martin, J.F.; Andon, R.J.L., Thermodynamic properties of organic oxygen compounds. Part LII. Molar heat capacity of ethanoic, propanoic, and butanoic acids, J. Chem. Thermodynam., 1982, 14, 679-688. [all data]

Parks, Kelley, et al., 1929
Parks, G.S.; Kelley, K.K.; Huffman, H.M., Thermal data on organic compounds. V. A revision of the entropies and free energies of nineteen organic compounds, J. Am. Chem. Soc., 1929, 51, 1969-1973. [all data]

Parks and Anderson, 1926
Parks, G.S.; Anderson, C.T., Thermal data on organic compounds. III. The heat capacities, entropies and free energies of tertiary butyl alcohol, mannitol, erythritol and normal butyric acid, J. Am. Chem. Soc., 1926, 48, 1506-1512. [all data]

Konicek and Wadso, 1971
Konicek, J.; Wadso, I., Thermochemical properties of some carboxylic acids, amines and N-substituted amides in aqueous solution, Acta Chem. Scand., 1971, 25, 1541-1551. [all data]

von Reis, 1881
von Reis, M.A., Die specifische Wärme flüssiger organischer Verbindungen und ihre Beziehung zu deren Moleculargewicht, Ann. Physik [3], 1881, 13, 447-464. [all data]

Butler, Fraser-Monteiro, et al., 1982
Butler, J.J.; Fraser-Monteiro, M.L.; Fraser-Monteiro, L.; Baer, T.; Hass, J.R., Thermochemistry and dissociation dynamics of state-selected C₄H₈O₂⁺ Ions. 2. Butanoic acid, J. Phys. Chem., 1982, 86, 747. [all data]

Holmes, Fingas, et al., 1981
Holmes, J.L.; Fingas, M.; Lossing, F.P., Towards a general scheme for estimating the heats of formation of organic ions in the gas phase. Part I. Odd-electron cations, Can. J. Chem., 1981, 59, 80. [all data]

Holmes and Lossing, 1980
Holmes, J.L.; Lossing, F.P., Gas-phase heats of formation of keto and enol ions of carbonyl compounds., J. Am. Chem. Soc., 1980, 102, 1591. [all data]

Watanabe, Yokoyama, et al., 1973
Watanabe, I.; Yokoyama, Y.; Ikeda, S., Lone pair ionization potentials of carboxylic acids determined by He(I) photoelectron spectroscopy, Bull. Chem. Soc. Jpn., 1973, 46, 1959. [all data]

Watanabe, Nakayama, et al., 1962
Watanabe, K.; Nakayama, T.; Mottl, J., Ionization potentials of some molecules, J. Quant. Spectry. Radiative Transfer, 1962, 2, 369. [all data]

Benoit and Harrison, 1977
Benoit, F.M.; Harrison, A.G., Predictive value of proton affinity. Ionization energy correlations involving oxygenated molecules, J. Am. Chem. Soc., 1977, 99, 3980. [all data]

Sustmann and Trill, 1972
Sustmann, R.; Trill, H., Photoelektronenspektroskopische Bestimmung von Substituenten-Effekten. II. α,β-ungesattigte Carbonester, Tetrahedron Lett., 1972, 42, 4271. [all data]

Holmes and Lossing, 1980, 2
Holmes, J.L.; Lossing, F.P., Thermochemistry and unimolecular reactions of ionized acetic acid and its enol in the gas phase., J. Am. Chem. Soc., 1980, 102, 3732. [all data]

Norrman and McMahon, 1999
Norrman, K.; McMahon, T.B., Intramolecular solvation of carboxylate anions in the gas phase, J. Phys. Chem. A, 1999, 103, 35, 7008-7016, https://doi.org/10.1021/jp9908202 . [all data]

Caldwell, Renneboog, et al., 1989
Caldwell, G.; Renneboog, R.; Kebarle, P., Gas Phase Acidities of Aliphatic Carboxylic Acids, Based on Measurements of Proton Transfer Equilibria, Can. J. Chem., 1989, 67, 4, 661, https://doi.org/10.1139/v89-092 . [all data]

Cumming and Kebarle, 1978
Cumming, J.B.; Kebarle, P., Summary of gas phase measurements involving acids AH. Entropy changes in proton transfer reactions involving negative ions. Bond dissociation energies D(A-H) and electron affinities EA(A), Can. J. Chem., 1978, 56, 1. [all data]

Notes

Go To: Top, Gas phase thermochemistry data, Condensed phase thermochemistry data, Gas phase ion energetics data, References

Symbols used in this document:

AE	Appearance energy
C_p,liquid	Constant pressure heat capacity of liquid
IE (evaluated)	Recommended ionization energy
S°_gas	Entropy of gas at standard conditions
S°_liquid	Entropy of liquid at standard conditions
Δ_cH°_liquid	Enthalpy of combustion of liquid at standard conditions
Δ_fH°_gas	Enthalpy of formation of gas at standard conditions
Δ_fH°_liquid	Enthalpy of formation of liquid 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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