Triallylamine (TAA) reacts with primary aromatic amines in the presence of a ruthenium catalyst to form 2-ethyl-3-methylquinolines.[1]
TAA undergoes hydrozirconation followed by transmetalation with germanium tetrachloride to form 1-aza-5-germa-5-chlorobicyclo[3.3.3]undecane. This compound can react with Grignard or lithium reagents to form the corresponding 5-organo compounds.[2]
The cycloaddition of TAA to fluorinated 1,3,4-oxadiazoles affords octahydro-2,7-methanofuro[3,2-c]pyridines.[3]
In the highly competitive market of fuel cells, solid alkaline fuel cells using liquid fuel (such as cheap, non-toxic and non-valorized glycerol) and not requiring noble metal as catalyst seem quite promising. One of the main hurdles for emergence of
Cycloaddition of fluorinated oxadiazoles with triallylamine.
Vasil?ev N V, et al.
Chemistry of Heterocyclic Compounds, 52(9), 750-752 (2016)
Biochimica et biophysica acta, 1189(2), 143-151 (1994-01-19)
Tertiary amines like imidazole and triallylamine lower the apparent affinity of K+ in the ATP hydrolysis reaction of pig gastric H,K-ATPase in a pH and amine concentration dependent way. The mechanism and sidedness of this effect was studied by analyzing
Palladium-catalyzed reaction of 1-aza-5-germa-5-organobicyclo [3.3. 3] undecane with aryl bromide.
Kosugi M, et al.
Journal of Organometallic Chemistry, 508(1-2), 255-257 (1996)
Environmental and molecular mutagenesis, 18(3), 184-199 (1991-01-01)
Three cross-linked polyacrylate polymers containing either methylenebis-acrylamide (MBA), trimethylolpropane triacrylate (TMPTA), or triallylamine (TAA) cross-linkers were tested for genotoxicity with the Salmonella mammalian microsome assay, the L5178Y mouse lymphoma TK +/- assay, the unscheduled DNA synthesis assay in primary cultures
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