Ethanone, 1-(2-pyridinyl)-

Formula: C₇H₇NO
Molecular weight: 121.1366
IUPAC Standard InChI: InChI=1S/C7H7NO/c1-6(9)7-4-2-3-5-8-7/h2-5H,1H3
IUPAC Standard InChIKey: AJKVQEKCUACUMD-UHFFFAOYSA-N
CAS Registry Number: 1122-62-9
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: Ketone, methyl 2-pyridyl; Methyl 2-pyridyl ketone; 2-Acetylpyridine; 2-Pyridyl methyl ketone; 2-Acetopyridine; Acetyl pyridine; 1-(2-pyridinyl)ethanone; 2-AcetyIpyridine
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Gas Chromatography

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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	OV-101	110.	999.	Terenina, Zhuravieva, et al., 1997	50. m/0.3 mm/0.4 μm, He

Kovats' RI, polar column, isothermal

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Column type	Active phase	Temperature (C)	I	Reference	Comment
Capillary	PEG-40M	150.	1608.	Terenina, Zhuravieva, et al., 1997	50. m/0.3 mm/0.4 μm, He

Kovats' RI, polar column, temperature ramp

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Column type	Active phase	I	Reference	Comment
Capillary	Carbowax 20M	1618.	N/A	He, 70. C @ 25. min, 2. K/min; Column length: 30. m; Column diameter: 0.25 mm; T_end: 170. C

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

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Column type	Active phase	I	Reference	Comment
Capillary	BPX-5	1057.	Ames, Guy, et al., 2001	50. m/0.32 mm/0.25 μm, He, 60. C @ 5. min, 4. K/min, 250. C @ 10. min
Capillary	DB-1	1001.	Kim, 2001	60. m/0.32 mm/1. μm, He, 40. C @ 5. min, 2. K/min; T_end: 220. C
Capillary	HP-1	1026.	Oh, Hartman, et al., 1992	50. m/0.32 mm/1.05 μm, He, 2. K/min, 260. C @ 10. min; T_start: 40. C
Capillary	DB-1	1026.	Izzo and Ho, 1991	50. m/0.32 mm/1.05 μm, He, 2. K/min, 260. C @ 40. min; T_start: 40. C

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

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Column type	Active phase	I	Reference	Comment
Capillary	BPX-5	1050.	Bredie, Mottram, et al., 1998	50. m/0.32 mm/0.5 μm, He; Program: OC (5min) => 60C/min => 60C(5min) => 4C/min => 250C

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

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Column type	Active phase	I	Reference	Comment
Capillary	Supelcowax-10	1608.	Chung, Yung, et al., 2002	60. m/0.25 mm/0.25 μm, He, 35. C @ 5. min, 2. K/min, 195. C @ 90. min
Capillary	Supelcowax-10	1608.	Chung, Yung, et al., 2001	60. m/0.25 mm/0.25 μm, He, 35. C @ 5. min, 2. K/min, 195. C @ 90. min
Capillary	DB-Wax	1590.	Kim, 2001	60. m/0.25 mm/0.25 μm, He, 40. C @ 5. min, 2. K/min, 200. C @ 30. min
Capillary	DB-Wax	1586.	Lee, Suriyaphan, et al., 2001	60. m/0.25 mm/0.25 μm, He, 2. K/min; T_start: 40. C; T_end: 200. C
Capillary	PEG-20M	1603.	Shimoda, Nakada, et al., 1997	60. m/0.25 mm/0.25 μm, He, 2. K/min, 230. C @ 60. min; T_start: 50. C
Capillary	DB-Wax	1603.	Shimoda, Shiratsuchi, et al., 1996	60. m/0.25 mm/0.25 μm, He, 2. K/min, 230. C @ 60. min; T_start: 50. C
Capillary	CP-WAX 57CB	1597.	Salter L.J., Mottram D.S., et al., 1988	60. C @ 5. min, 4. K/min; Column length: 50. m; Column diameter: 0.32 mm; T_end: 200. C

Van Den Dool and Kratz RI, polar column, custom temperature program

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Column type	Active phase	I	Reference	Comment
Capillary	DB-Wax	1602.	Hallier, Prost, et al., 2005	30. m/0.32 mm/0.5 μm, He; Program: 40C(5min) => 10C/min => 160C => 15C/min => 230C

Normal alkane RI, non-polar column, temperature ramp

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Column type	Active phase	I	Reference	Comment
Capillary	HP-5 MS	1030.	Kim and Chung, 2009	30. m/0.25 mm/0.25 μm, Helium, 35. C @ 5. min, 2. K/min, 195. C @ 30. min
Capillary	Ultra-1	998.	Du, Clery, et al., 2008	50. m/0.20 mm/0.33 μm, Helium, 2. K/min, 280. C @ 20. min; T_start: 50. C
Capillary	HP-5	1034.	Du, Clery, et al., 2008	50. m/0.20 mm/0.33 μm, Helium, 10. K/min, 280. C @ 8.5 min; T_start: 50. C
Capillary	SLB-5MS	1045.	Risticevic, Carasek, et al., 2008	10. m/0.18 mm/0.18 μm, Helium, 40. C @ 1.5 min, 10. K/min; T_end: 295. C
Capillary	HP-5	1034.8	Leffingwell and Alford, 2005	60. m/0.32 mm/0.25 μm, He, 30. C @ 2. min, 2. K/min, 260. C @ 28. min
Capillary	DB-5MS	1046.	Lee, Suriyaphan, et al., 2001	60. m/0.25 mm/0.25 μm, He, 40. C @ 5. min, 2. K/min, 200. C @ 30. min
Capillary	HP-5	1036.	Boylston and Viniyard, 1998	50. m/0.32 mm/0.52 μm, 35. C @ 15. min, 2. K/min, 250. C @ 45. min
Capillary	DB-1	1018.	Chen and Ho, 1998	60. m/0.32 mm/1.0 μm, He, 3. K/min; T_start: 40. C; T_end: 260. C
Capillary	OV-101	1005.	Roberts and Acree, 1994	12. m/0.32 mm/0.52 μm, 35. C @ 3. min, 4. K/min; T_end: 225. C
Capillary	OV-101	1014.	Egolf and Jurs, 1993	2. K/min; Column length: 50. m; Column diameter: 0.22 mm; T_start: 80. C; T_end: 200. C
Capillary	DB-1	991.	Ishihara, Tsuneya, et al., 1992	60. m/0.25 mm/0.25 μm, He, 50. C @ 5. min, 3. K/min; T_end: 240. C
Capillary	DB-1	993.	Ishihara, Tsuneya, et al., 1992	60. m/0.25 mm/0.25 μm, He, 50. C @ 5. min, 3. K/min; T_end: 240. C
Capillary	DB-1	998.	Flath, Matsumoto, et al., 1989	60. m/0.32 mm/0.25 μm, 4. K/min; T_start: 50. C; T_end: 250. C
Capillary	DB-1	998.	Flath, Matsumoto, et al., 1989	60. m/0.32 mm/0.25 μm, 4. K/min; T_start: 50. C; T_end: 250. C
Capillary	Methyl Silicone	1010.	Lorenz, Stern, et al., 1983	4. K/min, 200. C @ 15. min; Column length: 25. m; Column diameter: 0.2 mm; T_start: 50. C
Capillary	Methyl Silicone	1011.	Lorenz, Stern, et al., 1983	4. K/min, 200. C @ 15. min; Column length: 25. m; Column diameter: 0.2 mm; T_start: 50. C

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

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Column type	Active phase	I	Reference	Comment
Capillary	SLB-5MS	1032.	Risticevic, Carasek, et al., 2008	10. m/0.18 mm/0.18 μm, Helium; Program: not specified
Capillary	SE-54	1031.	Lasekan, Buettner, et al., 2007	30. m/0.32 mm/0.25 μm; Program: 35C(2min) => 40C/min => 60C(2min) => 6C/min => 180C => 10C/min => 230C(10min)
Capillary	SE-30	1014.	Vinogradov, 2004	Program: not specified

Normal alkane RI, polar column, temperature ramp

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Column type	Active phase	I	Reference	Comment
Capillary	HP-Innowax	1587.	Du, Clery, et al., 2008	50. m/0.20 mm/0.33 μm, Helium, 10. K/min, 250. C @ 6. min; T_start: 50. C
Capillary	HP-FFAP	1615.	Qian and Reineccius, 2002	25. m/0.32 mm/0.52 μm, 60. C @ 1. min, 5. K/min, 240. C @ 5. min
Capillary	DB-Wax	1597.	Buttery and Ling, 1998	30. C @ 4. min, 2. K/min, 170. C @ 30. min; Column length: 60. m; Column diameter: 0.25 mm
Capillary	PEG-20M	1599.	Kubota, Matsujage, et al., 1996	50. m/0.25 mm/0.25 μm, Nitrogen, 2. K/min; T_start: 60. C; T_end: 180. C
Capillary	Carbowax 20M	1600.	Egolf and Jurs, 1993	2. K/min; Column length: 80. m; Column diameter: 0.2 mm; T_start: 70. C; T_end: 170. C
Capillary	DB-Wax	1567.	Hatsuko, Kazuko, et al., 1992	He, 60. C @ 10. min, 3. K/min; Column length: 30. m; Column diameter: 0.25 mm; T_end: 240. C
Capillary	Carbowax 20M	1580.	Vernin, Metzger, et al., 1992	He, 3. K/min; Column length: 50. m; Column diameter: 0.33 mm; T_start: 60. C; T_end: 200. C
Capillary	DB-Wax	1587.	Wong and Bernhard, 1988	He, 70. C @ 8. min, 2. K/min; Column length: 30. m; Column diameter: 0.25 mm; T_end: 160. C
Packed	Carbowax	1590.	Schieberle and Grosch, 1983	He, Chromosorb G AW DMCS, 4. K/min; Column length: 3. m; T_start: 60. C; T_end: 180. C

Normal alkane RI, polar column, custom temperature program

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Column type	Active phase	I	Reference	Comment
Capillary	DB-FFAP	1552.	Lasekan, Buettner, et al., 2007	30. m/0.32 mm/0.25 μm; Program: 35C(2min) => 40C/min => 50C(2min) => 6C/min => 180C => 10C/min => 230C(10min)
Capillary	HP-Innowax	1618.	Viegas and Bassoli, 2007	60. m/0.32 mm/0.25 μm, Helium; Program: 40 0C (5 min) 4 0C/min -> 60 0C (5 min) 8 0C/min -> 250 0C (3 min)
Capillary	HP-Innowax	1599.	Viegas and Bassoli, 2007	60. m/0.32 mm/0.25 μm, Helium; Program: not specified
Capillary	Carbowax 20M	1600.	Vinogradov, 2004	Program: not specified
Capillary	DB-Wax	1560.	Hatsuko, Kazuko, et al., 1992	He; Column length: 30. m; Column diameter: 0.25 mm; Program: not specified
Capillary	Carbowax	1585.	Baltes and Bochmann, 1987	Program: not specified
Capillary	Carbowax	1585.	Baltes and Bochmann, 1987	Program: not specified
Capillary	Carbowax	1586.	Baltes and Bochmann, 1987	Program: not specified
Capillary	Carbowax	1587.	Baltes and Bochmann, 1987	Program: not specified
Capillary	Carbowax	1588.	Baltes and Bochmann, 1987	Program: not specified

References

Go To: Top, Gas Chromatography, Notes

Terenina, Zhuravieva, et al., 1997
Terenina, M.B.; Zhuravieva, I.L.; Golovnya, R.V., Peculiar features of sorption of positional isomers of formyl-, acetyl-, and aminopyridines in capillary gas-liquid chromatography, Russ. Chem. Bull. (Engl. Transl.), 1997, 46, 1, 86-89, https://doi.org/10.1007/BF02495353 . [all data]

Ames, Guy, et al., 2001
Ames, J.M.; Guy, R.C.E.; Kipping, G.J., Effect of pH, temperature, and moisture on the formation of volatile compounds in glycine/glucose model systems, J. Agric. Food Chem., 2001, 49, 9, 4315-4323, https://doi.org/10.1021/jf010198m . [all data]

Kim, 2001
Kim, J.S., Einfluss der Temperatur beim Rösten von Sesam auf Aroma und antioxidative Eigenschaften des Öls, PhD Thesis, Technischen Universität Berlin zur Erlangung des akademischen Grades, Berlin, 2001, 151. [all data]

Oh, Hartman, et al., 1992
Oh, Y.-C.; Hartman, T.G.; Ho, C.-T., Volatile compounds generated from the Maillard reaction of pro-gly, gly-pro, and a mixture of glycine and proline with glucose, J. Agric. Food Chem., 1992, 40, 10, 1878-1880, https://doi.org/10.1021/jf00022a030 . [all data]

Izzo and Ho, 1991
Izzo, H.V.; Ho, C.-T., Isolation and identification of the volatile components of an extruded autolyzed yeast extract, J. Agric. Food Chem., 1991, 39, 12, 2245-2248, https://doi.org/10.1021/jf00012a029 . [all data]

Bredie, Mottram, et al., 1998
Bredie, W.L.P.; Mottram, D.S.; Guy, R.C.E., Aroma volatiles generated during extrusion cooking of maize flour, J. Agric. Food Chem., 1998, 46, 4, 1479-1487, https://doi.org/10.1021/jf9708857 . [all data]

Chung, Yung, et al., 2002
Chung, H.-Y.; Yung, I.K.S.; Ma, W.C.J.; Kim, J.-S., Analysis of volatile components in frozen and dried scallops (Patinopecten yessoensis) by gas chromatography/mass spectrometry, Food Res. Int., 2002, 35, 1, 43-53, https://doi.org/10.1016/S0963-9969(01)00107-7 . [all data]

Chung, Yung, et al., 2001
Chung, H.Y.; Yung, I.K.S.; Kim, J.-S., Comparison of volatile components in dried scallops (Chlamys farreri and Patinopecten yessoensis) prepared by boiling and steaming methods, J. Agric. Food Chem., 2001, 49, 1, 192-202, https://doi.org/10.1021/jf000692a . [all data]

Lee, Suriyaphan, et al., 2001
Lee, G.-H.; Suriyaphan, O.; Cadwallader, K.R., Aroma components of cooked tail meat of American lobster (Homarus americanus), J. Agric. Food Chem., 2001, 49, 9, 4324-4332, https://doi.org/10.1021/jf001523t . [all data]

Shimoda, Nakada, et al., 1997
Shimoda, M.; Nakada, Y.; Nakashima, M.; Osajima, Y., Quantitative comparison of volatile flavor compounds in deep-roasted and light-roasted sesame seed oil, J. Agric. Food Chem., 1997, 45, 8, 3193-3196, https://doi.org/10.1021/jf970172o . [all data]

Shimoda, Shiratsuchi, et al., 1996
Shimoda, M.; Shiratsuchi, H.; Nakada, Y.; Wu, Y.; Osajima, Y., Identification and sensory characterization of volatile flavor compounds in sesame seed oil, J. Agric. Food Chem., 1996, 44, 12, 3909-3912, https://doi.org/10.1021/jf960115f . [all data]

Salter L.J., Mottram D.S., et al., 1988
Salter L.J.; Mottram D.S.; Whitfield, Volatile compounds produces in Maillard reactions involving glycine, ribose and phospholid, J. Sci. Food Agric., 1988, 46, 2, 227-242, https://doi.org/10.1002/jsfa.2740460211 . [all data]

Hallier, Prost, et al., 2005
Hallier, A.; Prost, C.; Serot, T., Influence in rearing conditions on the volatile compounds of cooked fillets of Silurus glanis (European catfish), J. Agric. Food Chem., 2005, 53, 18, 7204-7211, https://doi.org/10.1021/jf050559o . [all data]

Kim and Chung, 2009
Kim, J.-S.; Chung, H.Y., GC-MS analysis of the volatile components in dried boxthorn (Lycium chimensis) Fruit, J. Korean Soc. Appl. Biol. Chem., 2009, 52, 5, 516-524, https://doi.org/10.3839/jksabc.2009.088 . [all data]

Du, Clery, et al., 2008
Du, Z.; Clery, R.; Hammond, C.J., Volatile organic nitrogen-containing constituents in ambrette seed Abelmoschus moschatus Medik (Malvaceae), J. Agric. Food Chem., 2008, 56, 16, 7388-7392, https://doi.org/10.1021/jf800958d . [all data]

Risticevic, Carasek, et al., 2008
Risticevic, S.; Carasek, E.; Pawliszyn, J., Headspace solid-phase microextraction-gas chromatographic-time-of-flight mass spectrometric methodology for geographical origin verification of coffee, Anal. Chim. Acta, 2008, 617, 1-2, 72-84, https://doi.org/10.1016/j.aca.2008.04.009 . [all data]

Leffingwell and Alford, 2005
Leffingwell, J.C.; Alford, E.D., Volatile constituents of Perique tobacco, Electron. J. Environ. Agric. Food Chem., 2005, 4, 2, 899-915. [all data]

Boylston and Viniyard, 1998
Boylston, T.D.; Viniyard, B.T., Isolation of volatile flavor compounds from peanut butter using purge-and-trap technique in Instrumental Methods in Food and Beverage Analysis, D. Wetzel and G. Charalambous, ed(s)., 1998, 225-243. [all data]

Chen and Ho, 1998
Chen, J.; Ho, C.-T., Volatile compounds formed from thermal degradation of glucosamine in a dry system, J. Agric. Food Chem., 1998, 46, 5, 1971-1974, https://doi.org/10.1021/jf971021o . [all data]

Roberts and Acree, 1994
Roberts, D.D.; Acree, T.E., Gas chromatography - olfactometry of glucose - proline Maillard reaction products in American Chemical Society, Symposium Series -- Volume 543, American Chemical Society, Washington, 1994, 71-79. [all data]

Egolf and Jurs, 1993
Egolf, L.M.; Jurs, P.C., Quantitative structure-retention and structure-odor intensity relationships for a diverse group of odor-active compounds, Anal. Chem., 1993, 65, 21, 3119-3126, https://doi.org/10.1021/ac00069a027 . [all data]

Ishihara, Tsuneya, et al., 1992
Ishihara, M.; Tsuneya, T.; Shiga, M.; Kawashima, S.; Yamagishi, K.; Yoshida, F.; Sato, H.; Uneyama, K., New pyridine derivatives and basic components in spearmint oil (Mentha gentilis f. cardiaca) and peppermint oil (Mentha piperita), J. Agric. Food Chem., 1992, 40, 9, 1647-1655, https://doi.org/10.1021/jf00021a034 . [all data]

Flath, Matsumoto, et al., 1989
Flath, R.A.; Matsumoto, K.E.; Binder, R.G.; Cunningham, R.T.; Mon, T.R., Effect of pH on the volatiles of hydrolyzed protein insect baits, J. Agric. Food Chem., 1989, 37, 3, 814-819, https://doi.org/10.1021/jf00087a053 . [all data]

Lorenz, Stern, et al., 1983
Lorenz, G.; Stern, D.J.; Flath, R.A.; Haddon, W.F.; Tillin, S.J.; Teranishi, R., Identification of sheep liver volatiles, J. Agric. Food Chem., 1983, 31, 5, 1052-1057, https://doi.org/10.1021/jf00119a033 . [all data]

Lasekan, Buettner, et al., 2007
Lasekan, O.; Buettner, A.; Christlbauer, M., Investigation of important odorants of palm wine (Elaeis guineensis), Food Chem., 2007, 105, 1, 15-23, https://doi.org/10.1016/j.foodchem.2006.12.052 . [all data]

Vinogradov, 2004
Vinogradov, B.A., Production, composition, properties and application of essential oils, 2004, retrieved from http://viness.narod.ru. [all data]

Qian and Reineccius, 2002
Qian, M.; Reineccius, G., Identification of aroma compounds in Parmigiano-Reggiano cheese by gas chromatography/olfactometry, J. Dairy Sci., 2002, 85, 6, 1362-1369, https://doi.org/10.3168/jds.S0022-0302(02)74202-1 . [all data]

Buttery and Ling, 1998
Buttery, R.G.; Ling, L.C., Additional studies on flavor components of corn tortilla chips, J. Agric. Food Chem., 1998, 46, 7, 2764-2769, https://doi.org/10.1021/jf980125b . [all data]

Kubota, Matsujage, et al., 1996
Kubota, K.; Matsujage, Y.; Sekiwa, Y.; Kobayashi, A., Identification of the characteristic volatile flavor compounds formed by cooking squid (Todarodes pacificus Steenstrup), Food Sci. Technol., 1996, 2, 3, 163-166. [all data]

Hatsuko, Kazuko, et al., 1992
Hatsuko, S.; Kazuko, H.; Masayoshi, K.; Yoshiaki, I., Improvement of quality of likorine extract by heat treatment, J. Food Sci. Technol., 1992, 39, 11, 976-983, https://doi.org/10.3136/nskkk1962.39.976 . [all data]

Vernin, Metzger, et al., 1992
Vernin, G.; Metzger, J.; Boniface, C.; Murello, M.-H.; Siouffi, A.; Larice, J.-L.; Parkanyi, C., Kinetics and thermal degradation of the fructose-methionine Amadori intermediates. GC-MS/SPECMA data bank identification of volatile aroma compounds, Carbohyd. Res., 1992, 230, 1, 15-29, https://doi.org/10.1016/S0008-6215(00)90510-X . [all data]

Wong and Bernhard, 1988
Wong, J.M.; Bernhard, R.A., Effect of nitrogen source on pyrazine formation, J. Agric. Food Chem., 1988, 36, 1, 123-129, https://doi.org/10.1021/jf00079a032 . [all data]

Schieberle and Grosch, 1983
Schieberle, P.; Grosch, W., Identifizierung von Aromastoffen aus der Kruste von Roggenbrot, Z. Lebensm. Unters. Forsch., 1983, 177, 3, 173-180, https://doi.org/10.1007/BF01146791 . [all data]

Viegas and Bassoli, 2007
Viegas, M.C.; Bassoli, D.G., Utilizacao do indice de retencao linear para caracterizacao de compostos volateis em cafe soluvel utilizando GC-MS e coluna HP-Innowax, Quim. Nova, 2007, 30, 8, 2031-2034, https://doi.org/10.1590/S0100-40422007000800040 . [all data]

Baltes and Bochmann, 1987
Baltes, W.; Bochmann, G., Model reactions on roast aroma formations, V. Mass spectrometric identification of pyrifines, oxazoles, and carbocyclic compounds from the reaction of serine and threonine with sucrose under the conditions of coffee roasting, Z. Lebensm. Unters. Forsch., 1987, 185, 1, 5-9, https://doi.org/10.1007/BF01083331 . [all data]

Notes

Go To: Top, Gas Chromatography, References

Data from NIST Standard Reference Database 69: NIST Chemistry WebBook
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