The self-assembly of triaminopyrimidines with barbiturates and with cyanates was investigated in chloroform solution. Equimolar mixtures of two complementary components form stable macrocyclic 3 : 3 complexes (rosettes). The thermodynamics of self-assembly were quantified by using 1H NMR titrations to measure the strength of pairwise H-bonding interactions between two rosette components (K), allosteric cooperativity associated with formation of a second H-bonding interaction with each component, and the effective molarity for cyclisation of the rosette motif (EM). Pyrimidine-cyanurate interactions are an order of magnitude more favourable than pyrimidine-barbiturate interactions, so the cyanurate rosettes are significantly more stable than barbiturate rosettes. There is no allosteric cooperativity associated with rosette formation, but the chelate cooperativity quantified by the product K EM is exceptionally high (102-104), indicating that there are no other species present that compete with rosette assembly. The values of EM for rosette formation are approximately 2 M for all four rosettes studied and are not affected by differences in peripheral substituents or intrinsic H-bond strength.