Showing 1-11 of 11 results for "136948"
The neurotoxicity of 5-nonanone: preliminary report.
M A Shifman et al.
Toxicology letters, 8(4-5), 283-288 (1981-06-01)
T Lomonaco et al.
Journal of breath research, 12(4), 046004-046004 (2018-07-10)
A reliable method for the determination of carbonyl compounds in exhaled breath based on on-sorbent derivatization coupled with thermal desorption and gas chromatography-tandem mass spectrometry is described. The analytical performances were optimized for a mixture of C2-C9 aldehydes and C3-C9...
A convenient method for synthesizing modified 4-nitrophenols
Nakaike Y, et al.
The Journal of Organic Chemistry, 70(24), 10169-10171 (2005)
Development of a general Pd (II)-catalyzed intermolecular hydroalkoxylation reaction of vinylphenols by using a sacrificial alcohol as the hydride source
Zhang Y and Sigman MS
Organic Letters, 8(24), 5557-5560 (2006)
Peter S Toth et al.
The Analyst, 140(6), 1947-1954 (2015-02-11)
Two-phase voltammetry has been carried out using a reverse cell configuration, i.e. with the lower density organic solvent on the top of the aqueous solution in the cell, where the organic solvents contain either nitrile or ketone functional groups. The...
Controlling selectivity in the reaction network of aldoxime hydrogenation to primary amines
Gebauer-Henke E, et al.
Catalysis Science & Technology, 2(12), 2539-2548 (2012)
Techno-economic analysis of 5-nonanone production from levulinic acid.
Patel AD, et al.
Chemical Engineering Journal, 160(1), 311-321 (2010)
G A Eiceman et al.
Analytical chemistry, 65, 1696-1702 (1993-01-01)
Hydrazine (HZ) and monomethylhydrazine (MMH) in air were monitored continuously using a hand-held ion mobility spectrometer equipped with membrane inlet, 63Ni ion source, acetone reagent gas, and ambient temperature drift tube. Response characteristics included detection limit, 6 ppb; linear range...
Controlling Selectivity in the Consecutive Reaction Network of Aldoxime Hydrogenation to Primary Amines.
Gebauer-Henke E, et al.
Catalysis Science & Technology, 2, 2539-2548 (2012)
Commercial-grade methyl heptyl ketone (5-methyl-2-octanone) neurotoxicity: contribution of 5-nonanone.
J L O'Donoghue et al.
Toxicology and applied pharmacology, 62(2), 307-316 (1982-02-01)
Possible role of metabolism in 5-nonanone neurotoxicity.
G D DiVincenzo et al.
Neurotoxicology, 3(1), 55-63 (1982-07-01)

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