Cyclohexane, methyl-

Formula: C₇H₁₄
Molecular weight: 98.1861
IUPAC Standard InChI: InChI=1S/C7H14/c1-7-5-3-2-4-6-7/h7H,2-6H2,1H3
IUPAC Standard InChIKey: UAEPNZWRGJTJPN-UHFFFAOYSA-N
CAS Registry Number: 108-87-2
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.
Isotopologues:
- Methylcyclohexane-d14
Other names: Cyclohexylmethane; Hexahydrotoluene; Methylcyclohexane; Sextone B; Toluene hexahydride; Hexahydroxytoluene; Metylocykloheksan; Toluene, hexahydro-; UN 2296; NSC 9391
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Van Den Dool and Kratz RI, non-polar column, temperature ramp

Go To: Top, References, Notes

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

Column type	Capillary	Capillary	Capillary	Capillary	Capillary
Active phase	SPB-5	HP-5	Petrocol DH	SPB-1	SPB-1
Column length (m)	60.	50.	50.	30.	30.
Carrier gas		He	He
Substrate
Column diameter (mm)	0.32	0.32	0.25	0.25	0.25
Phase thickness (μm)	1.	1.05	0.5	0.25	0.25
T_start (C)	40.	35.	35.	40.	40.
T_end (C)	230.	220.	200.	250.	250.
Heat rate (K/min)	3.	8.	3.	10.	10.
Initial hold (min)	2.	15.	10.	2.	2.
Final hold (min)	10.	5.	10.	2.	2.
I	727.	736.	720.2	715.27	715.65
Reference	Engel and Ratel, 2007	Insausti, Goñi, et al., 2005	Censullo, Jones, et al., 2003	LECO Corporation, 2003	LECO Corporation, 2003
Comment	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI

Column type	Capillary	Capillary	Capillary	Capillary	Capillary
Active phase	DB-5	DB-5	DB-5	DB-5	SPB-Sulfur
Column length (m)	30.	30.	30.	30.	30.
Carrier gas	He	He	He	He
Substrate
Column diameter (mm)	0.25	0.25	0.25	0.25	0.32
Phase thickness (μm)	0.25	0.25	0.25	1.	4.
T_start (C)	40.	40.	40.	50.	40.
T_end (C)	310.	310.	310.	200.	200.
Heat rate (K/min)	2.	4.	6.	2.5	4.
Initial hold (min)					12.5
Final hold (min)
I	718.3	720.0	720.3	725.0	723.1
Reference	Song, Lai, et al., 2003	Song, Lai, et al., 2003	Song, Lai, et al., 2003	Xu, van Stee, et al., 2003	de Lacy Costello, Evans, et al., 2001
Comment	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI

Column type	Capillary	Capillary	Capillary	Capillary	Capillary
Active phase	OV-101	DB-1	DB-5	DB-5	DB-5
Column length (m)	80.	10.	30.	30.	30.
Carrier gas	N2	He	He	He	He
Substrate
Column diameter (mm)	0.22	0.25	0.25	0.25	0.25
Phase thickness (μm)		0.25	0.25	0.25	0.25
T_start (C)	30.	30.	40.	40.	40.
T_end (C)	130.	225.	310.	310.	310.
Heat rate (K/min)	1.	2.	2.	4.	6.
Initial hold (min)
Final hold (min)
I	719.4	715.	718.3	720.	720.3
Reference	Yin, Liu, et al., 2001	Beens, Tijssen, et al., 1998	Lai and Song, 1995	Lai and Song, 1995	Lai and Song, 1995
Comment	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI

Column type	Capillary	Capillary	Capillary	Capillary	Capillary
Active phase	Petrocol DH	Petrocol DH	Petrocol DH	Petrocol DH	HP-1
Column length (m)	100.	100.	100.	100.	25.
Carrier gas	He	He	He	He	N2
Substrate
Column diameter (mm)	0.25	0.25	0.25	0.25	0.2
Phase thickness (μm)	0.5	0.5	0.5	0.5
T_start (C)	30.	30.	30.	30.	30.
T_end (C)	220.	220.	220.	220.
Heat rate (K/min)	1.	1.	1.	1.	10.
Initial hold (min)
Final hold (min)
I	716.67	716.41	716.54	717.	721.9
Reference	Subramaniam, Bochniak, et al., 1994	White, Douglas, et al., 1992	White, Douglas, et al., 1992	White, Hackett, et al., 1992	Bangjie, Xijian, et al., 1987
Comment	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI

Column type	Capillary	Capillary	Capillary	Capillary	Capillary
Active phase	HP-1	HP-1	Ultra-1	Ultra-1	Ultra-1
Column length (m)	25.	25.	50.	50.	50.
Carrier gas	N2	N2	He	He	He
Substrate
Column diameter (mm)	0.2	0.2	0.22	0.22	0.22
Phase thickness (μm)			0.33	0.33	0.33
T_start (C)	30.	30.	-30.	-30.	-30.
T_end (C)			240.	240.	240.
Heat rate (K/min)	2.	5.	1.	2.	3.
Initial hold (min)		5.
Final hold (min)
I	718.	716.9	710.40	713.04	714.82
Reference	Bangjie, Xijian, et al., 1987	Bangjie, Xijian, et al., 1987	Haynes and Pitzer, 1985	Haynes and Pitzer, 1985	Haynes and Pitzer, 1985
Comment	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI

Column type	Capillary	Capillary	Capillary	Packed	Packed
Active phase	Ultra-2	Ultra-2	Ultra-2	SE-30	SE-30
Column length (m)	50.	50.	50.	3.05	3.05
Carrier gas	He	He	He	He	He
Substrate				Chromosorb AW	Chromosorb AW
Column diameter (mm)	0.22	0.22	0.22
Phase thickness (μm)	0.33	0.33	0.33
T_start (C)	-30.	-30.	-30.	40.	40.
T_end (C)	240.	240.	240.	210.	210.
Heat rate (K/min)	1.	2.	3.	10.	10.
Initial hold (min)				10.	10.
Final hold (min)				30.	30.
I	715.22	718.06	719.89	727.	727.
Reference	Haynes and Pitzer, 1985	Haynes and Pitzer, 1985	Haynes and Pitzer, 1985	Buchman, Cao, et al., 1984	Buchman, Cao, et al., 1984
Comment	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI

Column type	Capillary
Active phase	OV-101
Column length (m)	108.
Carrier gas
Substrate
Column diameter (mm)	0.25
Phase thickness (μm)	0.2
T_start (C)	35.
T_end (C)	200.
Heat rate (K/min)	1.
Initial hold (min)
Final hold (min)
I	716.
Reference	Hayes and Pitzer, 1981
Comment	MSDC-RI

References

Go To: Top, Van Den Dool and Kratz RI, non-polar column, temperature ramp, Notes

Engel and Ratel, 2007
Engel, E.; Ratel, J., Correction of the data generated by mass spectrometry analyses of biological tissues: Application to food authentication, J. Chromatogr. A, 2007, 1154, 1-2, 331-341, https://doi.org/10.1016/j.chroma.2007.02.012 . [all data]

Insausti, Goñi, et al., 2005
Insausti, K.; Goñi, V.; Petri, E.; Gorraiz, C.; Beriain, M.J., Effect of weight at slaughter on the volatile compounds of cooked beef from Spanish cattle breeds, Meat Sci., 2005, 70, 1, 83-90, https://doi.org/10.1016/j.meatsci.2004.12.003 . [all data]

Censullo, Jones, et al., 2003
Censullo, A.C.; Jones, D.R.; Wills, M.T., Speciation of the volatile organic compounds (VOCs) in solventborne aerosol coatings by solid phase microextraction-gas chromatography, J. Coat. Technol., 2003, 75, 936, 47-53, https://doi.org/10.1007/BF02697922 . [all data]

LECO Corporation, 2003
LECO Corporation, Determination of hydrocarbon components in petroleum naphthas, 2003, retrieved from http://www.leco.org/customersupport/apps/separationscience/-190.pdf. [all data]

Song, Lai, et al., 2003
Song, C.; Lai, W.-C.; Madhusudan Reddy, K.; Wei, B., Chapter 7. Temperature-programmed retention indices for GC and GC-MS of hydrocarbon fuels and simulated distillation GC of heavy oils in Analytical advances for hydrocarbon research, Hsu,C.S., ed(s)., Kluwer Academic/Plenum Publishers, New York, 2003, 147-193. [all data]

Xu, van Stee, et al., 2003
Xu, X.; van Stee, L.L.P.; Williams, J.; Beens, J.; Adahchour, M.; Vreuls, R.J.J.; Brinkman, U.A.Th.; Lelieveld, J., Comprehensive two-dimensional gas chromatography (GC×GC) measurements of volatile organic compounds in the atmosphere, Atmos. Chem. Phys., 2003, 3, 3, 665-682, https://doi.org/10.5194/acp-3-665-2003 . [all data]

de Lacy Costello, Evans, et al., 2001
de Lacy Costello, B.P.J.; Evans, P.; Ewen, R.J.; Gunson, H.E.; Jones, P.R.H.; Ratcliffe, N.M.; Spencer-Phillips, P.T.N., Gas chromatography-mass spectrometry analyses of volatile organic compounds from potato tubers inoculated with Phytophthora infestans or Fusarium coeruleum, Plant Pathol., 2001, 50, 4, 489-496, https://doi.org/10.1046/j.1365-3059.2001.00594.x . [all data]

Yin, Liu, et al., 2001
Yin, C.; Liu, W.; Li, Z.; Pan, Z.; Lin, T.; Zhang, M., Chemometrics to chemical modeling: structural coding in hydrocarbons and retention indices of gas chromatography, J. Sep. Sci., 2001, 24, 3, 213-220, https://doi.org/10.1002/1615-9314(20010301)24:3<213::AID-JSSC213>3.0.CO;2-4 . [all data]

Beens, Tijssen, et al., 1998
Beens, J.; Tijssen, R.; Blomberg, J., Prediction of comprehensive two-dimensional gas chromatographic separations. A theoretical and practical exercise, J. Chromatogr. A, 1998, 822, 2, 233-251, https://doi.org/10.1016/S0021-9673(98)00649-9 . [all data]

Lai and Song, 1995
Lai, W.-C.; Song, C., Temperature-programmed retention indices for g.c. and g.c.-m.s. analysis of coal- and petroleum-derived liquid fuels, Fuel, 1995, 74, 10, 1436-1451, https://doi.org/10.1016/0016-2361(95)00108-H . [all data]

Subramaniam, Bochniak, et al., 1994
Subramaniam, B.; Bochniak, D.; Snavely, K., Fischer-Tropsch synthesis in supercritical reaction media, Lawrence Department of Chemical and Petroleum Engineering (DOE/PC/92532--T7), United States Department of Energy, Pittsburgh, PA, 1994, 8, retrieved from http://www.NTIS.gov. [all data]

White, Douglas, et al., 1992
White, C.M.; Douglas, L.J.; Hackett, J.P.; Anderson, R.R., Characterization of synthetic gasoline from the chloromethane-zeolite reaction, Energy Fuels, 1992, 6, 1, 76-82, https://doi.org/10.1021/ef00031a012 . [all data]

White, Hackett, et al., 1992
White, C.M.; Hackett, J.; Anderson, R.R.; Kail, S.; Spock, P.S., Linear temperature programmed retention indices of gasoline range hydrocarbons and chlorinated hydrocarbons on cross-linked polydimethylsiloxane, J. Hi. Res. Chromatogr., 1992, 15, 2, 105-120, https://doi.org/10.1002/jhrc.1240150211 . [all data]

Bangjie, Xijian, et al., 1987
Bangjie, C.; Xijian, G.; Shaoyi, P., Calculation of retention indices in temperature-programmed gas chromatography, Chromatographia, 1987, 23, 12, 888-892, https://doi.org/10.1007/BF02261466 . [all data]

Haynes and Pitzer, 1985
Haynes, P.C., Jr.; Pitzer, E.W., Disengaging solutes in shale- and petroleum-derived jet fuels by altering GC programmed temperature rates, J. Hi. Res. Chromatogr. Chromatogr. Comm., 1985, 8, 5, 230-242, https://doi.org/10.1002/jhrc.1240080504 . [all data]

Buchman, Cao, et al., 1984
Buchman, O.; Cao, G.-Y.; Peng, C.T., Structure assignment by retention index in gas-liquid radiochromatography of substituted cyclohexenes, J. Chromatogr., 1984, 312, 75-90, https://doi.org/10.1016/S0021-9673(01)92765-7 . [all data]

Hayes and Pitzer, 1981
Hayes, P.C., Jr.; Pitzer, E.W., Kovats indices as a tool in characterizing hydrocarbon fuels in temperature programmed glass capillary gas chromatography. Part 1. Qualitative identification, Inhouse rpt. for Air Force Wright Aeronautical Labs., Air Force Wright Aeronautical Labs., Wright-Patterson AFB, Ohio, 1981, 75. [all data]

Notes

Go To: Top, Van Den Dool and Kratz RI, non-polar column, temperature ramp, References

Symbols used in this document:

T_end Final temperature

T_start Initial temperature
Data from NIST Standard Reference Database 69: NIST Chemistry WebBook
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