Trinitrotoluene

Formula: C₇H₅N₃O₆
Molecular weight: 227.1311
IUPAC Standard InChI: InChI=1S/C7H5N3O6/c1-4-6(9(13)14)2-5(8(11)12)3-7(4)10(15)16/h2-3H,1H3
IUPAC Standard InChIKey: SPSSULHKWOKEEL-UHFFFAOYSA-N
CAS Registry Number: 118-96-7
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: Benzene, 2-methyl-1,3,5-trinitro-; Toluene, 2,4,6-trinitro-; α-TNT; s-Trinitrotoluene; s-Trinitrotoluol; Tolite; Tritol; Trotyl; TNT; 2-Methyl-1,3,5-Trinitrobenzene; 2,4,6-Trinitrotoluene; sym-Trinitrotoluene; sym-Trinitrotoluol; NCI-C56155; TNT-tolite; Trojnitrotoluen; 2,4,6-Trinitrotolueen; 2,4,6-Trinitrotoluol; Tolit; Trotyl oil; 1-Methyl-2,4,6-trinitrobenzene; 2,4,6-TNT; Gradetol; NSC 36949; Tritol (explosive)
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Other data available:
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Gas phase thermochemistry data

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Data compiled by: Hussein Y. Afeefy, Joel F. Liebman, and Stephen E. Stein

Quantity	Value	Units	Method	Reference	Comment
Δ_fH°_gas	24.1 ± 3.5	kJ/mol	Ccb	Lenchitz, Velicky, et al., 1971

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°_solid	-63.2 ± 5.0	kJ/mol	Ccb	Rouse, 1976	ALS
Δ_fH°_solid	-80.5 ± 3.1	kJ/mol	Ccb	Lenchitz, Velicky, et al., 1971	ALS
Δ_fH°_solid	-49.96	kJ/mol	Ccb	Rinkenbach, 1930	Author hf298_condensed[kcal/mol]=-16.50; ALS
Quantity	Value	Units	Method	Reference	Comment
Δ_cH°_solid	-3410. ± 20.	kJ/mol	AVG	N/A	Average of 8 values; Individual data points

Constant pressure heat capacity of solid

C_p,solid (J/mol*K)	Temperature (K)	Reference	Comment
243.3	298.	Yin, Ziru, et al., 1991	T = 290 to 345 K. Cp value reported at 298 K is 1.071 J/g*K.; DH
311.7	293.	Taylor and Rinkenbach, 1924	T = 90 to 352 K.; DH

Phase change data

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Data compiled as indicated in comments:
TRC - Thermodynamics Research Center, NIST Boulder Laboratories, Chris Muzny director
AC - William E. Acree, Jr., James S. Chickos
ALS - Hussein Y. Afeefy, Joel F. Liebman, and Stephen E. Stein

Quantity	Value	Units	Method	Reference	Comment
T_fus	355.1	K	N/A	Hu, Li, et al., 1990	Uncertainty assigned by TRC = 0.1 K; TRC
T_fus	352.	K	N/A	Hwang, Tamura, et al., 1990	Uncertainty assigned by TRC = 0.1 K; TRC
T_fus	354.	K	N/A	Kotula and Rabczuk, 1985	Uncertainty assigned by TRC = 2. K; TRC
T_fus	354.3	K	N/A	Lenchitz and Velicky, 1970	Uncertainty assigned by TRC = 0.5 K; TRC
T_fus	353.42	K	N/A	Taylor and Rinkenbach, 1924, 2	Uncertainty assigned by TRC = 0.3 K; TRC
Quantity	Value	Units	Method	Reference	Comment
Δ_vapH°	87.0 ± 1.9	kJ/mol	ME	Cundall, Frank Palmer, et al., 1978	AC
Quantity	Value	Units	Method	Reference	Comment
Δ_subH°	113.2 ± 1.5	kJ/mol	ME	Kudchadker, Kudchadker, et al., 1979	Based on data from 301. to 349. K.; AC
Δ_subH°	105. ± 2.	kJ/mol	V	Lenchitz, Velicky, et al., 1971	ALS
Δ_subH°	104.6 ± 1.7	kJ/mol	ME	Lenchitz, Velicky, et al., 1971	AC
Δ_subH°	118.	kJ/mol	V	Edwards, 1950	ALS

Enthalpy of vaporization

Δ_vapH (kJ/mol)	Temperature (K)	Method	Reference	Comment
93.7	368.	A	Stephenson and Malanowski, 1987	Based on data from 353. to 523. K.; AC

Antoine Equation Parameters

log₁₀(P) = A − (B / (T + C))
P = vapor pressure (bar)
T = temperature (K)

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Temperature (K)	A	B	C	Reference	Comment
503. to 523.	5.3728	3209.208	-24.437	Maksimov, 1968	Coefficents calculated by NIST from author's data.

Enthalpy of sublimation

Δ_subH (kJ/mol)	Temperature (K)	Method	Reference	Comment
112.4	308.	A	Stephenson and Malanowski, 1987	Based on data from 293. to 353. K.; AC
99. ± 2.	297. to 330.	GS	Pella, 1976	See also Pella, 1977.; AC
103.3 ± 2.5	338.	N/A	Lenchitz and Velicky, 1970	Based on data from 327. to 349. K.; AC
118.4 ± 4.2	323. to 353.	ME	Edwards, 1950	See also Jones, 1960 and Cox and Pilcher, 1970.; AC

Enthalpy of fusion

Δ_fusH (kJ/mol)	Temperature (K)	Reference	Comment
23.43	352.2	Acree, 1993	AC

In addition to the Thermodynamics Research Center (TRC) data available from this site, much more physical and chemical property data is available from the following TRC products:

Gas phase ion energetics data

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Data compiled as indicated in comments:
B - John E. Bartmess
LLK - Sharon G. Lias, Rhoda D. Levin, and Sherif A. Kafafi

Ionization energy determinations

IE (eV)	Method	Reference	Comment
10.59 ± 0.04	PI	Potapov, Kardash, et al., 1972	LLK

De-protonation reactions

C₇H₄N₃O₆^- + = Trinitrotoluene

By formula: C₇H₄N₃O₆^- + H⁺ = C₇H₅N₃O₆

Quantity	Value	Units	Method	Reference	Comment
Δ_rH°	1320. ± 9.2	kJ/mol	G+TS	Koppel, Taft, et al., 1994	gas phase; B
Quantity	Value	Units	Method	Reference	Comment
Δ_rG°	1293. ± 8.4	kJ/mol	IMRE	Koppel, Taft, et al., 1994	gas phase; B
Δ_rG°	1351. ± 21.	kJ/mol	IMRB	Dzidic, Carroll, et al., 1974	gas phase; B

IR Spectrum

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Data compiled by: Timothy J. Johnson, Tanya L. Myers, Yin-Fong Su, Russell G. Tonkyn, Molly Rose K. Kelly-Gorham, and Tyler O. Danby

Condensed Phase Spectrum

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Additional Data

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Detailed documentation for this spectrum is available.

Owner	Public domain
Origin	Pacific Northwest National Laboratory Under IARPA Contract
Date	March 2017
State	solid
Instrument	Bruker IR Cube FTIR
Aperture	6 mm
External diffuse reflectance accessory	A 562-G integrating sphere
Beam splitter	Ge on KBr
Diameter of detector port in sphere	2×2 mm, 60° field of view MCT
Sphere diameter	75 mm
Acquisition mode	double-sided, forward-backward
Scanner velocity	40 kHz
Co-added scans	2048
Phase resolution	32.00
Phase correction	Mertz
Zero filling	4×
Spectral range	7,500 to 600 cm-1 saved; 7500 to 600 cm-1 reported
Resolution	0.96450084
Spectral resolution	4 cm-1
Wavenumber accuracy	± 0.4 cm-1
Apodization function	Blackman-Harris 3-term
Low-pass filter	Open
Switch gain on	512 points

Mass spectrum (electron ionization)

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

Spectrum

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Additional Data

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Due to licensing restrictions, this spectrum cannot be downloaded.

Owner	NIST Mass Spectrometry Data Center Collection (C) 2014 copyright by the U.S. Secretary of Commerce on behalf of the United States of America. All rights reserved.
Origin	Japan AIST/NIMC Database- Spectrum MS-IW-5216
NIST MS number	242273

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Gas Chromatography

Go To: Top, Gas phase thermochemistry data, Condensed phase thermochemistry data, Phase change data, Gas phase ion energetics data, IR Spectrum, Mass spectrum (electron ionization), References, Notes

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	DB-5	140.	1707.07	Hobbs and Conde, 1992	30. m/0.25 mm/0.25 μm
Capillary	DB-5	140.	1714.08	Hobbs and Conde, 1992	30. m/0.25 mm/0.25 μm

Kovats' RI, non-polar column, temperature ramp

View large format table.

Column type	Active phase	I	Reference	Comment
Packed	OV-101	1693.	Alley and Dykes, 1972	6. K/min; T_start: 70. C; T_end: 220. C

Kovats' RI, non-polar column, custom temperature program

View large format table.

Column type	Active phase	I	Reference	Comment
Capillary	Methyl Silicone	1704.	Staples, 2005	Column diameter: 0.25 mm; Program: not specified

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

View large format table.

Column type	Active phase	I	Reference	Comment
Capillary	DB-5	1708.67	Hobbs and Conde, 1992	30. m/0.25 mm/0.25 μm, 5. K/min; T_start: 40. C; T_end: 300. C
Capillary	DB-5	1717.67	Hobbs and Conde, 1992	30. m/0.25 mm/0.25 μm, 5. K/min; T_start: 40. C; T_end: 300. C

Normal alkane RI, non-polar column, custom temperature program

View large format table.

Column type	Active phase	I	Reference	Comment
Capillary	DB-5	1704.	Staples, 2004	He; Program: not specified
Capillary	DB-5	1709.	Staples, 2004	He; Program: not specified

Lee's RI, non-polar column, temperature ramp

View large format table.

Column type	Active phase	I	Reference	Comment
Capillary	DB-5MS	287.66	Chen, Keeran, et al., 2002	30. m/0.25 mm/0.5 μm, 40. C @ 1. min, 10. K/min; T_end: 310. C

References

Lenchitz, Velicky, et al., 1971
Lenchitz, C.; Velicky, R.W.; Silvestro, G.; Schlosberg, L.P., Thermodynamic properties of several nitrotoluenes, J. Chem. Thermodyn., 1971, 3, 689-692. [all data]

Rouse, 1976
Rouse, P.E., Jr., Enthalpies of formation and calculated detonation properties of some thermally stable explosives, J. Chem. Eng. Data, 1976, 21, 16-20. [all data]

Rinkenbach, 1930
Rinkenbach, W.H., The heats of combustion and formation of aromatic nitro compounds, J. Am. Chem. Soc., 1930, 52, 115-120. [all data]

Yin, Ziru, et al., 1991
Yin, C.; Ziru, L.; Ganghe, W.; Chengyun, W., et al., Determination of heat capacity of explosives and related materials by DSC, Proc. Int. Pyrotech. Semin. 17th(Vol. 1), 1991, 515-521. [all data]

Taylor and Rinkenbach, 1924
Taylor, C.A.; Rinkenbach, W.H., The specific heats of trinitrotoluene, tetryl, picric acid and their molecular complexes, J. Am. Chem. Soc., 1924, 46, 1504-1510. [all data]

Hu, Li, et al., 1990
Hu, R.; Li, J.; Liang, Y.; Wu, S.; Sun, L.; Wang, Y., Thermal behavior of 2,2,2-trinitroethyl-4,4,4-trinitrobutyrate, J. Therm. Anal., 1990, 36, 1155-60. [all data]

Hwang, Tamura, et al., 1990
Hwang, D.-R.; Tamura, M.; Yoshida, T.; Tanaka, N.; Hosoya, F., Estimation of ΔH°f of nitro derivatives of benzene and toluene using AM1 and DSC, J. Energ. Mater., 1990, 8, 85-98. [all data]

Kotula and Rabczuk, 1985
Kotula, I.; Rabczuk, A., DTA Investigation of the Solid-Liquid Equilibrium for Mehtyl Derivatives of Naphthalene with Some Nitroaromatics, J. Therm. Anal., 1985, 30, 195. [all data]

Lenchitz and Velicky, 1970
Lenchitz, Charles; Velicky, Rodolf W., Vapor pressure and heat of sublimation of three nitrotoluenes, J. Chem. Eng. Data, 1970, 15, 3, 401-403, https://doi.org/10.1021/je60046a022 . [all data]

Taylor and Rinkenbach, 1924, 2
Taylor, C.A.; Rinkenbach, W.H., The specific heats of trinitrotoluene, tetryl, picric acid, and their molecular complexes, J. Am. Chem. Soc., 1924, 46, 1504-10. [all data]

Cundall, Frank Palmer, et al., 1978
Cundall, Robert B.; Frank Palmer, T.; Wood, Colin E.C., Vapour pressure measurements on some organic high explosives, J. Chem. Soc., Faraday Trans. 1, 1978, 74, 0, 1339, https://doi.org/10.1039/f19787401339 . [all data]

Kudchadker, Kudchadker, et al., 1979
Kudchadker, Shanti A.; Kudchadker, Arvind P.; Zwolinski, Bruno J., Chemical thermodynamic properties of anthracene and phenanthrene, The Journal of Chemical Thermodynamics, 1979, 11, 11, 1051-1059, https://doi.org/10.1016/0021-9614(79)90135-6 . [all data]

Edwards, 1950
Edwards, G., The vapour pressure of 2 : 4 : 6-trinitrotoluene, Trans. Faraday Soc., 1950, 46, 423. [all data]

Stephenson and Malanowski, 1987
Stephenson, Richard M.; Malanowski, Stanislaw, Handbook of the Thermodynamics of Organic Compounds, 1987, https://doi.org/10.1007/978-94-009-3173-2 . [all data]

Maksimov, 1968
Maksimov, Yu, Steam Pressures of Nitroaromatic Compouds at Different Temperatures, Zh. Fiz. Khim., 1968, 42, 2921-2925. [all data]

Pella, 1976
Pella, Peter A., Generator for producing trace vapor concentrations of 2,4,6-trinitrotoluene, 2,4-dinitrotoluene, and ethylene glycol dinitrate for calibrating explosives vapor detectors, Anal. Chem., 1976, 48, 11, 1632-1637, https://doi.org/10.1021/ac50005a054 . [all data]

Pella, 1977
Pella, Peter A., Measurement of the vapor pressures of tnt, 2,4-dnt, 2,6-dnt, and egdn, The Journal of Chemical Thermodynamics, 1977, 9, 4, 301-305, https://doi.org/10.1016/0021-9614(77)90049-0 . [all data]

Jones, 1960
Jones, A.H., Sublimation Pressure Data for Organic Compounds., J. Chem. Eng. Data, 1960, 5, 2, 196-200, https://doi.org/10.1021/je60006a019 . [all data]

Cox and Pilcher, 1970
Cox, J.D.; Pilcher, G., Thermochemistry of Organic and Organometallic Compounds, Academic Press Inc., London, 1970, 643. [all data]

Acree, 1993
Acree, William E., Thermodynamic properties of organic compounds, Thermochimica Acta, 1993, 219, 97-104, https://doi.org/10.1016/0040-6031(93)80486-T . [all data]

Potapov, Kardash, et al., 1972
Potapov, V.K.; Kardash, I.E.; Sorokin, V.V.; Sokolov, S.A.; Evlasheva, T.I., Photoionization of heteroaromatic compounds, Khim. Vys. Energ., 1972, 6, 392. [all data]

Koppel, Taft, et al., 1994
Koppel, I.A.; Taft, R.W.; Anvia, F.; Zhu, S.Z.; Hu, L.Q.; Sung, K.S.; Desmarteau, D.D.; Yagupolskii, L.M., The Gas-Phase Acidities of Very Strong Neutral Bronsted Acids, J. Am. Chem. Soc., 1994, 116, 7, 3047, https://doi.org/10.1021/ja00086a038 . [all data]

Dzidic, Carroll, et al., 1974
Dzidic, I.; Carroll, D.I.; Stillwell, R.N.; Horning, E.C., Gas phase reactions. Ionization by proton transfer to superoxide anions, J. Am. Chem. Soc., 1974, 96, 5258. [all data]

Hobbs and Conde, 1992
Hobbs, J.R.; Conde, E.P., Gas chromatographic retention indices of explosives and nitro-compounds in Advances in Analysis and Detection of Explosives: Proceedings of the 4th International Symposium on Analysis of Detection of Explosives, September 7-10, 1992, Jerusalem Israel, J. Yinon, ed(s)., Kluwer Academic Publishers, Netherlands, 1992, 153-164. [all data]

Alley and Dykes, 1972
Alley, B.J.; Dykes, H.W.H., Gas-Liquid Chromatographic Determination of Nitrate Esters,Stabilizers and Plasticizers in Nitrocellulose-Base Propellants, J. Chromatogr., 1972, 71, 1, 23-37, https://doi.org/10.1016/S0021-9673(01)85687-9 . [all data]

Staples, 2005
Staples, E.J., Ultrahigh-speed chromatography and virtual chemical sensors for detecting explosives and chemical warfare agents, IEEE Sens. J., 2005, 5, 4, 622-631, https://doi.org/10.1109/JSEN.2005.850990 . [all data]

Staples, 2004
Staples, E.J., Analysis of odors from explosives using an electronic nose, 2004, retrieved from http://www.estcal.com/TechPapers/Odors_of_Explosives.doc. [all data]

Chen, Keeran, et al., 2002
Chen, P.H.; Keeran, W.S.; Van Ausdale, W.A.; Schindler, D.R.; Roberts, D.W., Application of Lee retention indices to the confirmation of tentatively identified compounds from GC/MS analysis of environmental samples, Technical paper, Analytical Services Division, Environmental ScienceEngineering, Inc, PO Box 1703, Gainesville, FL 32602, 2002, 11. [all data]

Notes

Symbols used in this document:

C_p,solid	Constant pressure heat capacity of solid
T_fus	Fusion (melting) point
Δ_cH°_solid	Enthalpy of combustion of solid at standard conditions
Δ_fH°_gas	Enthalpy of formation of gas at standard conditions
Δ_fH°_solid	Enthalpy of formation of solid at standard conditions
Δ_fusH	Enthalpy of fusion
Δ_rG°	Free energy of reaction at standard conditions
Δ_rH°	Enthalpy of reaction at standard conditions
Δ_subH	Enthalpy of sublimation
Δ_subH°	Enthalpy of sublimation at standard conditions
Δ_vapH	Enthalpy of vaporization
Δ_vapH°	Enthalpy of vaporization at standard conditions

Data from NIST Standard Reference Database 69: NIST Chemistry WebBook
The National Institute of Standards and Technology (NIST) uses its best efforts to deliver a high quality copy of the Database and to verify that the data contained therein have been selected on the basis of sound scientific judgment. However, NIST makes no warranties to that effect, and NIST shall not be liable for any damage that may result from errors or omissions in the Database.
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NIST Chemistry WebBook, SRD 69

Trinitrotoluene

Data at NIST subscription sites:

Gas phase thermochemistry data

Condensed phase thermochemistry data

Constant pressure heat capacity of solid

Phase change data

Enthalpy of vaporization

Antoine Equation Parameters

Enthalpy of sublimation

Enthalpy of fusion

Gas phase ion energetics data

Ionization energy determinations

De-protonation reactions

IR Spectrum

Condensed Phase Spectrum

Help

Credits

Additional Data

Mass spectrum (electron ionization)

Spectrum

Help

Credits

Additional Data

Gas Chromatography

Kovats' RI, non-polar column, isothermal

Kovats' RI, non-polar column, temperature ramp

Kovats' RI, non-polar column, custom temperature program

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

Normal alkane RI, non-polar column, custom temperature program

Lee's RI, non-polar column, temperature ramp

References

Notes