717-00-0Relevant articles and documents
Copper-Catalyzed Regioselective Direct C–H Thiolation and Thiocyanation of Uracils
Noikham, Medena,Yotphan, Sirilata
supporting information, p. 2759 - 2766 (2019/04/08)
A novel copper-catalyzed direct C–H thiolation and thiocyanation of uracils using disulfides and thiocyanate salts respectively as coupling partners are described. These reactions enable the C–H bond cleavage and C–S bond formation to proceed efficiently under relatively mild conditions, providing useful methods for a preparation of a series of thio-substituted at the C5 position of uracil derivatives. These protocols exhibit several merits including simple experimental procedures, readily accessible substrates and reagents, broad scopes, high yields, and excellent regioselectivity. Preliminary mechanistic studies revealed that a radical pathway is likely to be involved.
Mechanochemical N-alkylation of imides
Bri?, Anamarija,Dud, Mateja,Margeti?, Davor
supporting information, p. 1745 - 1752 (2017/09/27)
The mechanochemical N-alkylation of imide derivatives was studied. Reactions under solvent-free conditions in a ball mill gave good yields and could be put in place of the classical solution conditions. The method is general and can be applied to various imides and alkyl halides. Phthalimides prepared under ball milling conditions were used in a mechanochemical Gabriel synthesis of amines by their reaction with 1,2-diaminoethane.
Silica sulfuric acid (SSA) as a highly efficient heterogeneous catalyst for persilylation of purine and pyrimidine nucleobases and other N-heterocycles using HMDS
Rad, Mohammad Navid Soltani,Khalafi-Nezhad, Ali,Divar, Masoumeh,Behrouz, Somayeh
experimental part, p. 1943 - 1954 (2010/11/16)
Purine and pyrimidine nucleobases and other N-heterocycles have been silylated with HMDS in excellent yields in the presence of a catalytic amount of silica sulfuric acid (SSA) as a heterogeneous catalyst. SSA utilizes a shorter reaction time and higher yields of silylated nucleobases. SSA is reusable for several times without a decrease in reactivity or yield of silylated adducts. Copyright