100881-32-1Relevant articles and documents
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Mariella,R.P.,Zelko,J.J.
, p. 647 - 648 (1960)
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Iron-Catalyzed Alkyne-Based Multicomponent Synthesis of Pyrimidines under Air
Chakraborty, Gargi,Guin, Amit Kumar,Mondal, Rakesh,Paul, Nanda D.,Sarkar, Susmita
, p. 13186 - 13197 (2021/10/01)
An iron-catalyzed sustainable, economically affordable, and eco-friendly synthetic protocol for the construction of various trisubstituted pyrimidines is described. A wide range of trisubstituted pyrimidines were prepared using a well-defined, easy to prepare, bench-stable, and phosphine-free iron catalyst featuring a redox-noninnocent tridentate arylazo pincer under comparatively mild aerobic conditions via dehydrogenative functionalization of alcohols with alkynes and amidines.
Direct access to 2-(N-alkylamino)pyrimidines via ruthenium catalyzed tandem multicomponent annulation/N-alkylation
Borthakur, Ishani,Guria, Saikat,Kundu, Sabuj,Maji, Milan,Singha, Suman
, p. 37 - 51 (2021/08/25)
2-(N-alkylamino)pyrimidines are important heterocycles widely found in various pharmaceutically important drugs. Here, we have disclosed a new cooperative ruthenium complex catalyzed tandem multicomponent synthesis of 2-(N-alkylamino)pyrimidines directly from guanidine salt and alcohols. The reactions proceeded through the dehydrogenation of alcohols, followed by C[sbnd]C coupling and sequential C[sbnd]N coupling with guanidine and primary alcohol, with the elimination of three equivalents of hydrogen gas. In this work, application of both the acceptorless dehydrogenative coupling (ADC) and borrowing hydrogen (BH) strategies were accomplished in a single reaction. This catalytic method tolerated a wide range of substrates. The viability of the current method was demonstrated by preparative scale synthesis of a few products. A plausible catalytic cycle was proposed based on various control experiments, mechanistic studies and DFT calculations. Remarkably, 42 new 2-(N-alkylamino)pyrimidines were synthesized following this catalytic protocol.