1,4-Dithiane

Formula: C₄H₈S₂
Molecular weight: 120.236
IUPAC Standard InChI: InChI=1S/C4H8S2/c1-2-6-4-3-5-1/h1-4H2
IUPAC Standard InChIKey: LOZWAPSEEHRYPG-UHFFFAOYSA-N
CAS Registry Number: 505-29-3
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: p-Dithiane; p-Dithiin, tetrahydro-; 1,4-Dithiin, tetrahydro-; para-Dithiane; 1,4-Dithiacyclohexane
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Other data available:
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Condensed phase thermochemistry data

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Data compiled by: Eugene S. Domalski and Elizabeth D. Hearing

Constant pressure heat capacity of solid

C_p,solid (J/mol*K)	Temperature (K)	Reference	Comment
129.8	300.	DeWit, Offringa, et al., 1983	T = 300 to 450 K.

Phase change data

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Data compiled as indicated in comments:
BS - Robert L. Brown and Stephen E. Stein
TRC - Thermodynamics Research Center, NIST Boulder Laboratories, Chris Muzny director
AC - William E. Acree, Jr., James S. Chickos
DH - Eugene S. Domalski and Elizabeth D. Hearing

Quantity	Value	Units	Method	Reference	Comment
T_boil	472.7	K	N/A	Weast and Grasselli, 1989	BS
Quantity	Value	Units	Method	Reference	Comment
T_fus	384.6	K	N/A	De Wit, Offringa, et al., 1983	Uncertainty assigned by TRC = 0.2 K; TRC
Quantity	Value	Units	Method	Reference	Comment
Δ_subH°	63.	kJ/mol	N/A	Dávalos, Flores, et al., 1999	AC
Δ_subH°	68.9	kJ/mol	N/A	Azandegbe, 1989	AC

Enthalpy of vaporization

Δ_vapH (kJ/mol)	Temperature (K)	Method	Reference	Comment
48.7	404.	N/A	Dykyj, Svoboda, et al., 1999	Based on data from 389. to 437. K.; AC
47.9	403.	A	Stephenson and Malanowski, 1987	Based on data from 388. to 437. K.; AC

Enthalpy of sublimation

Δ_subH (kJ/mol)	Temperature (K)	Method	Reference	Comment
72.4	268.	E	De Wit, Van Miltenburg, et al., 1983	Based on data from 253. to 276. K.; AC

Enthalpy of fusion

Δ_fusH (kJ/mol)	Temperature (K)	Reference	Comment
21.600	384.6	DeWit, Offringa, et al., 1983	DH
21.6	384.6	Domalski and Hearing, 1996	AC

Entropy of fusion

Δ_fusS (J/mol*K)	Temperature (K)	Reference	Comment
56.2	384.6	DeWit, Offringa, et al., 1983	DH

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 Chromatography

Go To: Top, Condensed phase thermochemistry data, Phase change data, 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	Methyl Silicone	100.	1038.	Huber, Kenndler, et al., 1993	H2; Column length: 5. m; Phase thickness: 2.65 μm
Capillary	Methyl Silicone	120.	1050.	Huber, Kenndler, et al., 1993	H2; Column length: 5. m; Phase thickness: 2.65 μm
Packed	Apiezon M	130.	1094.	Garbuzov, Misharina, et al., 1985	He or N2, Chromosorb W, AW-DMCS; Column length: 2.1 m

Kovats' RI, polar column, isothermal

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Column type	Active phase	Temperature (C)	I	Reference	Comment
Capillary	PEG-20M	130.	1618.	Huber, Kenndler, et al., 1993	Column length: 10. m; Phase thickness: 1.33 μm
Capillary	PEG-20M	150.	1641.	Huber, Kenndler, et al., 1993	Column length: 10. m; Phase thickness: 1.33 μm
Capillary	PEG-20M	130.	1618.9	Huber, Kenndler, et al., 1993	Column length: 10. m; Phase thickness: 1.33 μm

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

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Column type	Active phase	I	Reference	Comment
Capillary	OV-1	1019.	Kostiainen, 2000	15. m/0.32 mm/0.25 μm, He, 50. C @ 2. min, 10. K/min, 280. C @ 10. min
Capillary	SE-54	1068.	Kostiainen, 2000	25. m/0.32 mm/0.25 μm, He, 40. C @ 1. min, 10. K/min, 280. C @ 10. min
Capillary	DB-1	1028.	Hancock and Peters, 1991	He, 50. C @ 2. min, 10. K/min; Column length: 15. m; Column diameter: 0.53 mm
Capillary	DB-5	1067.7	Hancock and Peters, 1991	He, 50. C @ 2. min, 10. K/min; Column length: 15. m; Column diameter: 0.53 mm
Capillary	DB-1	1019.	D'agostino and Provost, 1988	15. m/0.32 mm/0.25 μm, He, 50. C @ 2. min, 10. K/min, 300. C @ 5. min
Capillary	DB-5	1060.2	D'agostino and Provost, 1988	15. m/0.32 mm/0.25 μm, 50. C @ 2. min, 10. K/min, 300. C @ 5. min
Capillary	DB-1	1018.7	D'Agostino and Provost, 1985	15. m/0.32 mm/0.25 μm, He, 50. C @ 2. min, 10. K/min, 300. C @ 5. min
Capillary	DB-5	1060.2	D'Agostino and Provost, 1985	15. m/0.32 mm/0.25 μm, He, 50. C @ 2. min, 10. K/min; T_end: 300. C

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

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Column type	Active phase	I	Reference	Comment
Capillary	DB-Wax	1575.7	D'Agostino and Provost, 1985	15. m/0.32 mm/0.25 μm, He, 50. C @ 2. min, 10. K/min, 250. C @ 5. min

Normal alkane RI, non-polar column, temperature ramp

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Column type	Active phase	I	Reference	Comment
Capillary	DB-5	1074.	Hanaoka, Nomura, et al., 2006	30. m/0.32 mm/0.25 μm, He, 100. C @ 5. min, 10. K/min; T_end: 280. C
Capillary	HP-5	1022.	Mazurek, Witkiewicz, et al., 2001	He, 40. C @ 3. min, 10. K/min, 280. C @ 30. min; Column length: 30. m; Column diameter: 0.32 mm

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

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Column type	Active phase	I	Reference	Comment
Capillary	DB-1	1019.	Tarjan, Nyiredy, et al., 1989	Program: not specified

Normal alkane RI, polar column, custom temperature program

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Column type	Active phase	I	Reference	Comment
Capillary	Carbowax 400, Carbowax 20M, Carbowax 1540, Carbowax 4000, Superox 06, PEG 20M, etc.	1576.	Waggott and Davies, 1984	Hydrogen; Column length: 50. m; Column diameter: 0.32 mm; Program: not specified

References

Go To: Top, Condensed phase thermochemistry data, Phase change data, Gas Chromatography, Notes

DeWit, Offringa, et al., 1983
DeWit, H.G.M.; Offringa, J.C.A.; De Kruif, C.G.; Van Miltenburg, J.C., Thermodynamic properties of molecular organic crystals containing nitrogen, oxygen and sulfur. III. Molar heat capacities measured by differential scanning calorimetry, Thermochim. Acta, 1983, 65, 43-51. [all data]

Weast and Grasselli, 1989
CRC Handbook of Data on Organic Compounds, 2nd Editon, Weast,R.C and Grasselli, J.G., ed(s)., CRC Press, Inc., Boca Raton, FL, 1989, 1. [all data]

De Wit, Offringa, et al., 1983
De Wit, H.G.M.; Offringa, J.C.A.; De Kruif, C.G.; van Miltenburg, J.C., Thremodynamic properties of molecular organic crystals containing nitrogen, oxygen and sulfur. III. molar heat capacities measured by DSC. scanning calorimetry., Thermochim. Acta, 1983, 65, 43. [all data]

Dávalos, Flores, et al., 1999
Dávalos, Juan Z.; Flores, Henoc; Jiménez, Pilar; Notario, Rafael; Roux, María Victoria; Juaristi, Eusebio; Hosmane, Ramachandra S.; Liebman, Joel F., Calorimetric, Computational (G2(MP2) and G3) and Conceptual Study of the Energetics of the Isomeric 1,3- and 1,4-Dithianes ^«8224», J. Org. Chem., 1999, 64, 26, 9328-9336, https://doi.org/10.1021/jo990726h . [all data]

Azandegbe, 1989
Azandegbe, E.C., Determination of vaporization or sublimation enthalpies of some organic compounds by gas chromatography-calorimetry, Analusis, 1989, 17, 5, 285. [all data]

Dykyj, Svoboda, et al., 1999
Dykyj, J.; Svoboda, J.; Wilhoit, R.C.; Frenkel, M.L.; Hall, K.R., Vapor Pressure of Chemicals: Part A. Vapor Pressure and Antoine Constants for Hydrocarbons and Sulfur, Selenium, Tellurium and Hydrogen Containing Organic Compounds, Springer, Berlin, 1999, 373. [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]

De Wit, Van Miltenburg, et al., 1983
De Wit, H.G.M.; Van Miltenburg, J.C.; De Kruif, C.G., Thermodynamic properties of molecular organic crystals containing nitrogen, oxygen, and sulphur 1. Vapour pressures and enthalpies of sublimation, The Journal of Chemical Thermodynamics, 1983, 15, 7, 651-663, https://doi.org/10.1016/0021-9614(83)90079-4 . [all data]

Domalski and Hearing, 1996
Domalski, Eugene S.; Hearing, Elizabeth D., Heat Capacities and Entropies of Organic Compounds in the Condensed Phase. Volume III, J. Phys. Chem. Ref. Data, 1996, 25, 1, 1, https://doi.org/10.1063/1.555985 . [all data]

Huber, Kenndler, et al., 1993
Huber, J.F.K.; Kenndler, E.; Reich, G.; Hack, W.; Wolf, J., Optimal Selection of Gas Chromatographic Columns for the Analytical Control of Chemical Warfare Agents by Application of Information Theory to Retention Data, Anal. Chem., 1993, 65, 20, 2903-2906, https://doi.org/10.1021/ac00068a031 . [all data]

Garbuzov, Misharina, et al., 1985
Garbuzov, V.G.; Misharina, T.A.; Aerov, A.F.; Golovnya, R.V., Gas chromatographic retention indices for sulphur(II)-containing organic substances, J. Anal. Chem. USSR (Engl. Transl.), 1985, 40, 4, 576-586. [all data]

Kostiainen, 2000
Kostiainen, O., Gas Chromatography in Screening of Chemicals Related to the Chemical Weapons Convention in Encyclopedia of Analytical Chemistry, Meyers, R.A., ed(s)., John Wiley Sons Ltd, Chichester, 2000, 963-979. [all data]

Hancock and Peters, 1991
Hancock, J.R.; Peters, G.R., Retention index monitoring of compounds of chemical defence interest using thermal desorption gas chromatography, J. Chromatogr., 1991, 538, 2, 249-257, https://doi.org/10.1016/S0021-9673(01)88845-2 . [all data]

D'agostino and Provost, 1988
D'agostino, P.A.; Provost, L.R., Gas chromatographic retention indices of sulphur vesicants and related compounds, J. Chromatogr., 1988, 436, 399-411, https://doi.org/10.1016/S0021-9673(00)94599-0 . [all data]

D'Agostino and Provost, 1985
D'Agostino, P.A.; Provost, L.R., Gas chromatographic retention indices of chemical warfare agents and simulants, J. Chromatogr., 1985, 331, 47-54, https://doi.org/10.1016/0021-9673(85)80005-4 . [all data]

Hanaoka, Nomura, et al., 2006
Hanaoka, S.; Nomura, K.; Wada, T., Determination of mustard and lewisite related compounds in abandoned chemical weapons (Yellow shells) from sources in China and Japan, J. Chromatogr. A, 2006, 1101, 1-2, 268-277, https://doi.org/10.1016/j.chroma.2005.10.028 . [all data]

Mazurek, Witkiewicz, et al., 2001
Mazurek, M.; Witkiewicz, Z.; Popiel, S.; Sliwakowski, M., Capillary gas chromatography-atomic emission spectroscopy-mass spectrometry analysis of sulphur mustard and transformation products in a block recovered from the Baltic Sea, J. Chromatogr. A, 2001, 919, 1, 133-145, https://doi.org/10.1016/S0021-9673(01)00672-0 . [all data]

Tarjan, Nyiredy, et al., 1989
Tarjan, G.; Nyiredy, Sz.; Gyor, M.; Lombosi, E.R.; Lombosi, T.S.; Budahegyi, M.V.; Meszaros, S.Y.; Takacs, J.M., Review. Thirtieth Anniversary of the Retention Index According to Kovats in Gas-Liquid Chromatography, J. Chromatogr., 1989, 472, 1-92, https://doi.org/10.1016/S0021-9673(00)94099-8 . [all data]

Waggott and Davies, 1984
Waggott, A.; Davies, I.W., Identification of organic pollutants using linear temperature programmed retention indices (LTPRIs) - Part II, 1984, retrieved from http://dwi.defra.gov.uk/research/completed-research/reports/dwi0383.pdf. [all data]

Notes

Go To: Top, Condensed phase thermochemistry data, Phase change data, Gas Chromatography, References

Symbols used in this document:

C_p,solid	Constant pressure heat capacity of solid
T_boil	Boiling point
T_fus	Fusion (melting) point
Δ_fusH	Enthalpy of fusion
Δ_fusS	Entropy of fusion
Δ_subH	Enthalpy of sublimation
Δ_subH°	Enthalpy of sublimation at standard conditions
Δ_vapH	Enthalpy of vaporization

Data from NIST Standard Reference Database 69: NIST Chemistry WebBook
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