Cyclopentane, methyl-

Formula: C₆H₁₂
Molecular weight: 84.1595
IUPAC Standard InChI: InChI=1S/C6H12/c1-6-4-2-3-5-6/h6H,2-5H2,1H3
IUPAC Standard InChIKey: GDOPTJXRTPNYNR-UHFFFAOYSA-N
CAS Registry Number: 96-37-7
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: Methylcyclopentane; UN 2298
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Normal alkane RI, non-polar column, custom temperature program

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

Column type	Capillary	Capillary	Capillary	Capillary	Capillary
Active phase	HP-5	Squalane	Squalane	Squalane	Methyl Silicone
Column length (m)	60.
Carrier gas	Helium
Substrate
Column diameter (mm)	0.25
Phase thickness (μm)	0.25
Program	30 0C (2 min) 2 0Cmin -> 60 0C 10 0C/min -> 100 0C 20 0C/min -> 140 0C 10 0C/min -> 200 0C (10 min)	not specified	not specified	not specified	not specified
I	623.	634.	625.	651.	628.
Reference	Rotsatschakul, Visesanguan, et al., 2009	Chen, 2008	Chen, 2008	Chen, 2008	Feng and Mu, 2007
Comment	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI

Column type	Capillary	Capillary	Capillary	Capillary	Capillary
Active phase	Methyl Silicone	HP-5	DB-5	BP-1	CP Sil 8 CB
Column length (m)	60.	50.	50.	50.	60.
Carrier gas	Helium			He
Substrate
Column diameter (mm)	0.32	0.32	0.32	0.25	0.25
Phase thickness (μm)	1.0	1.05	1.05	1.	0.25
Program	-50 0C (2 min) 8 0C/min -> 200 0C (7.75 min) 25 0C -> 225 0C (8 min)	40C(10min) => 5C/min => 200C => 20C/min => 250C(5min)	40C(10min) => 5C/min => 200C => 20C/min => 250C (5min)	-50C => 49.9C/min => 5C(3min) => 3C/min => 50C => 5C/min => 220C(20 min)	not specified
I	627.	624.	624.	619.20	635.
Reference	Blunden, Aneja, et al., 2005	Garcia-Estaban, Ansorena, et al., 2004	Garcia-Estaban, Ansorena, et al., 2004, 2	Cooke, Hassoun, et al., 2001	Duckham, Dodson, et al., 2001
Comment	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI

Column type	Capillary	Capillary	Capillary	Capillary	Capillary
Active phase	DB-1	CP-Sil5 CB MS	Methyl Silicone	Methyl Silicone	OV-1
Column length (m)		50.
Carrier gas
Substrate
Column diameter (mm)		0.32
Phase thickness (μm)		0.4
Program	not specified	0C (3min) => 3C/min => 50C => 5C/min => 220C (30min)	not specified	not specified	not specified
I	630.	621.	627.	625.	629.
Reference	Zhu and Wang, 2001	Tirillini, Verdelli, et al., 2000	Zenkevich, 2000	Spieksma, 1999	Zhu and He, 1999
Comment	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI

Column type	Capillary	Capillary	Capillary	Capillary	Capillary
Active phase	OV-1	SPB-1	DB-1	DB-1	OV-101
Column length (m)		60.	60.	60.
Carrier gas		He
Substrate
Column diameter (mm)		0.53	0.32	0.32
Phase thickness (μm)		5.	0.25	0.25
Program	not specified	40C(6min) => 5C/min => 80C => 10C/min => 200C	not specified	3 min at 5 C; 5 - 50 C at 3 deg/min; 50 - 220 C at 5 deg/min	not specified
I	630.	631.	619.	619.	620.
Reference	Zhu and He, 1999	Flanagan, Streete, et al., 1997	Ciccioli, Cecinato, et al., 1994	Ciccioli, Brancaleoni, et al., 1993	Skrbic and Cvejanov, 1993
Comment	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI

Column type	Capillary	Capillary	Capillary	Capillary	Capillary
Active phase	SPB-1	SPB-1	SE-52	OV-1, SE-30, Methyl silicone, SP-2100, OV-101, DB-1, etc.	OV-1, SE-30, Methyl silicone, SP-2100, OV-101, DB-1, etc.
Column length (m)	60.	60.	100.	50.	50.
Carrier gas	Helium	Helium		Hydrogen	Hydrogen
Substrate
Column diameter (mm)	0.53	0.53	0.50	0.32	0.32
Phase thickness (μm)	5.0	5.0
Program	40 0C (6 min) 5 0C/min -> 80 0C 10 0C/min -> 200 0C	not specified	not specified	not specified	not specified
I	631.	650.	628.	620.	627.
Reference	Strete, Ruprah, et al., 1992	Strete, Ruprah, et al., 1992	van Langenhove and Schamp, 1986	Waggott and Davies, 1984	Waggott and Davies, 1984
Comment	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI

Column type	Capillary	Capillary	Packed	Packed	Packed
Active phase	OV-1, SE-30, Methyl silicone, SP-2100, OV-101, DB-1, etc.	OV-1	SE-30	Squalane	SE-30
Column length (m)	50.		6.1	3.0	6.1
Carrier gas	Hydrogen		N2	N2
Substrate			Chromosorb W	Embacel	Chrom W
Column diameter (mm)	0.32
Phase thickness (μm)
Program	not specified	not specified	50C910min) => 20C/min => 90(6min) => 10C/min => 150C(hold)	25C(5min) => 2C/min => 35 => 4C/min => 95C(hold)	50C(10min) => 20C/min(2min) => 90C(6min) => 10C/min(6min) => (hold at 150C)
I	629.	650.	640.	623.	640.
Reference	Waggott and Davies, 1984	Ramsey and Flanagan, 1982	Robinson and Odell, 1971	Robinson and Odell, 1971	Robinson and Odell, 1971, 2
Comment	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI

Column type	Packed
Active phase	Squalane
Column length (m)	3.0
Carrier gas
Substrate	Embacel
Column diameter (mm)
Phase thickness (μm)
Program	25C(5min) => 2C/min(5min) => 4C/min(15min) => (hold at 95C)
I	635.
Reference	Robinson and Odell, 1971, 2
Comment	MSDC-RI

References

Go To: Top, Normal alkane RI, non-polar column, custom temperature program, Notes

Rotsatschakul, Visesanguan, et al., 2009
Rotsatschakul, P.; Visesanguan, W.; Smitinont, T.; Chaiseri, S., Changes in volatile compounds during fermentation of nham (Thai fermented sausage), Int. Food Res. J., 2009, 16, 391-414. [all data]

Chen, 2008
Chen, H.-F., Quantitative prediction of gas chromatography retention indices with support vector machines, radial basis neutral networks and multiple linear regression, Anal. Chim. Acta, 2008, 609, 1, 24-36, https://doi.org/10.1016/j.aca.2008.01.003 . [all data]

Feng and Mu, 2007
Feng, H.; Mu, L.-L., Quantitative structure-retention relationships for alkane and its derivatives based on electrotopological state index and molecular shape index, Chem. Ind. Engineering (Chinese), 2007, 24, 2, 161-168. [all data]

Blunden, Aneja, et al., 2005
Blunden, J.; Aneja, V.P.; Lonneman, W.A., Characterization of non-methane volatile organic compounds at swine facilities in eastern North Carolina, Atm. Environ., 2005, 39, 36, 6707-6718, https://doi.org/10.1016/j.atmosenv.2005.03.053 . [all data]

Garcia-Estaban, Ansorena, et al., 2004
Garcia-Estaban, M.; Ansorena, D.; Astiasaran, I.; Martin, D.; Ruiz, J., Comparison of simultaneous distillation extraction (SDE) and solid-phase microextraction (SPME) for the analysis of volatile compounds in dry-cured ham, J. Sci. Food Agric., 2004, 84, 11, 1364-1370, https://doi.org/10.1002/jsfa.1826 . [all data]

Garcia-Estaban, Ansorena, et al., 2004, 2
Garcia-Estaban, M.; Ansorena, D.; Astiasarán, I.; Ruiz, J., Study of the effect of different fiber coatings and extraction conditions on dry cured ham volatile compounds extracted by solid-phase microextraction (SPME), Talanta, 2004, 64, 2, 458-466, https://doi.org/10.1016/j.talanta.2004.03.007 . [all data]

Cooke, Hassoun, et al., 2001
Cooke, K.M.; Hassoun, S.; Sanders, S.M.; Pilling, M.J., Identification and quantification of volatile organic compounds found in a eucalyptus forest during FIELDVOC'94 in Portugal, Chemosphere Global Change Science, 2001, 3, 3, 249-257, https://doi.org/10.1016/S1465-9972(01)00008-3 . [all data]

Duckham, Dodson, et al., 2001
Duckham, S.C.; Dodson, A.T.; Bakker, J.; Ames, J.M., Volatile flavour components of baked potato flesh. A comparison of eleven potato cultivars, Nahrung/Food, 2001, 45, 5, 317-323, https://doi.org/10.1002/1521-3803(20011001)45:5<317::AID-FOOD317>3.0.CO;2-4 . [all data]

Zhu and Wang, 2001
Zhu, X.; Wang, W., The relationship between partition coefficients of hydrocarbons and their retention indices, Acta Scientific Circumstantiae, 2001, 21, 5, 631-633. [all data]

Tirillini, Verdelli, et al., 2000
Tirillini, B.; Verdelli, G.; Paolocci, F.; Ciccioli, P.; Frattoni, M., The volatile organic compounds from the mycelium of Tuber borchii Vitt., Phytochemistry, 2000, 55, 8, 983-985, https://doi.org/10.1016/S0031-9422(00)00308-3 . [all data]

Zenkevich, 2000
Zenkevich, I.G., Mutual Correlation between Gas Chromatographic Retention Indices of Unsaturated and Saturated Hydrocarbons found by Molecular Dynamics, Z. Anal. Chem., 2000, 55, 10, 1091-1097. [all data]

Spieksma, 1999
Spieksma, W., Determination of vapor liquid equilibrium from the Kovats retention index on dimethylsilicone using the Wilson mixing tool, J. Hi. Res. Chromatogr., 1999, 22, 10, 565-588, https://doi.org/10.1002/(SICI)1521-4168(19991001)22:10<565::AID-JHRC565>3.0.CO;2-2 . [all data]

Zhu and He, 1999
Zhu, X.; He, L., Derivation of isothermal retention indices from a retention values under multiple-ramp temperature-programmed conditions, J. Instrum. Anal. (Chinese), 1999, 18, 6, 10-12. [all data]

Flanagan, Streete, et al., 1997
Flanagan, R.J.; Streete, P.J.; Ramsey, J.D., Volatile Substance Abuse, UNODC Technical Series, No 5, United Nations, Office on Drugs and Crime, Vienna International Centre, PO Box 500, A-1400 Vienna, Austria, 1997, 56, retrieved from http://www.odccp.org/pdf/technical_series₁997-01-01₁.pdf. [all data]

Ciccioli, Cecinato, et al., 1994
Ciccioli, P.; Cecinato, A.; Brancaleoni, E.; Brachetti, A.; Frattoni, M.; Sparapani, R., Composition and Distribution of Polar and Non-Polar VOCs in Urban, Rural, Forest and Remote Areas, Eur Commission EUR, 1994, 549-568. [all data]

Ciccioli, Brancaleoni, et al., 1993
Ciccioli, P.; Brancaleoni, E.; Cecinato, A.; Sparapani, R.; Frattoni, M., Identification and determination of biogenic and anthropogenic volatile organic compounds in forest areas of Northern and Southern Europe and a remote site of the Himalaya region by high-resolution gas chromatography-mass spectrometry, J. Chromatogr., 1993, 643, 1-2, 55-69, https://doi.org/10.1016/0021-9673(93)80541-F . [all data]

Skrbic and Cvejanov, 1993
Skrbic, B.D.; Cvejanov, J.Dj., Correlation of unified retention indices for OV-101 and squalane, Chromatographia, 1993, 35, 1/2, 109-110, https://doi.org/10.1007/BF02278566 . [all data]

Strete, Ruprah, et al., 1992
Strete, P.J.; Ruprah, M.; Ramsey, J.D.; Flanagan, R.J., Detection and identification of volatile substances by headspace capillary gas chromatography to aid the diagnosis of acute poisoning, Analyst, 1992, 117, 7, 1111-1127, https://doi.org/10.1039/an9921701111 . [all data]

van Langenhove and Schamp, 1986
van Langenhove, H.; Schamp, N., Identification of Volatiles in the Head Space of Acid-Treated Phosphate Rock by Gas Chromatography-Mass Spectromety, J. Chromatogr., 1986, 351, 65-75, https://doi.org/10.1016/S0021-9673(01)83473-7 . [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]

Ramsey and Flanagan, 1982
Ramsey, J.D.; Flanagan, R.J., Detection and Identification of Volatile Organic Compounds in Blood by Headspace Gas Chromatography as an Aid to the Diagnosis of Solvent Abuse, J. Chromatogr., 1982, 240, 2, 423-444, https://doi.org/10.1016/S0021-9673(00)99622-5 . [all data]

Robinson and Odell, 1971
Robinson, P.G.; Odell, A.L., A system of standard retention indices and its uses. The characterisation of stationary phases and the prediction of retention indices, J. Chromatogr., 1971, 57, 1-10, https://doi.org/10.1016/0021-9673(71)80001-8 . [all data]

Robinson and Odell, 1971, 2
Robinson, P.G.; Odell, A.L., Comparison of isothermal and non-linear temperature programmed gas chromatography. The temperature dependence of the retention indices of a number of hydrocarbons on squalane and SE-30, J. Chromatogr., 1971, 57, 11-17, https://doi.org/10.1016/0021-9673(71)80002-X . [all data]

Notes

Go To: Top, Normal alkane RI, non-polar column, custom temperature program, References

Data from NIST Standard Reference Database 69: NIST Chemistry WebBook
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