Structure-reactivity study of O-tosyl Cinchona alkaloids in their new synthesis and in hydrolysis to 9-epibases : unexpected formation of cinchonicine enol tosylate accelerated by microwave activation

New methods for O - tosylation of the natural Cinchona alkaloids have been discovered as a biphasic processes with Bu 3 N as a catalyst. The optimized excess of tosy l chloride , necessary for transformation of each of the four alkaloid s into O - tosy l derivative , decreases in the following order : quinine, quinidine, cinchonidine and cinchonine . The same decreasing order has been noticed for the hy drolysis rate of the appropriate tosylates to 9 - epibases . D iffic ult conversion of O - tosy lcinchonine in the hydrolytic medium of aq ueous tarta ric acid gives 9 - epicinchonine together with parallel formation of cinchonicine enol tosylate. The latter product is obtained as the main when both cinchonine and cinchonidine tosylates react in the presence of salicylic acid under controlled microwave heating . On the basis of X - ray structure of the new alkene product, the stereoselective syn - E2 quinuclidine ring opening process , competing to the S N 2 hydrolysis is postulated for this transformation

5,6,7,8-Tetra­hydro­quinolin-8-one

In the quinoline fused-ring system of the title compound, C9H9NO, the pyridine ring is planar to within 0.011 (3) Å, while the partially saturated cyclo­hexene ring adopts a sofa conformation with an asymmetry parameter ΔC s(C6) = 1.5 (4)°. There are no classical hydrogen bonds in the crystal structure. Mol­ecules form mol­ecular layers parallel to (100) with a distance between the layers of a/2 = 3.468 Å

5,6,7,8-Tetra­hydro­quinoline 1-oxide hemihydrate

In the title compound, C9H11NO·0.5H2O, the asymmetric unit contains two similar mol­ecules of 5,6,7,8-tetra­hydro­quinoline 1-oxide and one water mol­ecule. The water mol­ecule links the two O atoms of both independent N-oxides into dimers via O—H⋯O hydrogen bonds, forming a three-dimensional network along [101], which is additionally stabilized by weak C—H⋯O inter­molecular inter­actions. In each mol­ecule, the saturated six-membered rings exist in a conformation inter­mediate between a half-chair and sofa