Copper(I) complexes of heterocyclic thiourea ligands

Abstract: The coordination of heterocyclic thiourea ligands (L = N-(2-pyridyl)-N´-phenylthiourea (1), N-(2-pyridyl)-N´-methylthiourea (2), N-(3-pyridyl)-N´-phenylthiourea (3), N-(3-pyridyl)-N´methylthiourea (4), N-(4-pyridyl)-N´-phenylthiourea (5), N-(2-pyrimidyl)-N´-phenylthiourea (6), N-(2-pyrimidyl)-N´-methylthiourea (7), N-(2-thiazolyl)-N´-methylthiourea (8), N-(2benzothiazolyl)-N´-methylthiourea (9), N,N´-bis(2-pyridyl)thiourea (10) and N,N´-bis(3pyridyl)thiourea (11) with CuX (X = Cl, Br, I, NO3) has been investig… Show more

“…However, in the case of pyridine-thiourea ligands, only the 1,2-substituted pyridines (like T2) are known to bind in a bidentate fashion leading to discrete Cu(I) complexes. [43][44] 1,3-and 1,4-pyridine-thiourea ligands yield coordination networks with Cu(I) instead. 44 In this respect we have shown in Figure 2 how both the pyridine and thiourea moieties of T3 ligand (1,3 substitution) are necessary and clearly superior to a pyridine-free analogue, which highlights the requirement of the pyridine moiety.…”

“…[43][44] 1,3-and 1,4-pyridine-thiourea ligands yield coordination networks with Cu(I) instead. 44 In this respect we have shown in Figure 2 how both the pyridine and thiourea moieties of T3 ligand (1,3 substitution) are necessary and clearly superior to a pyridine-free analogue, which highlights the requirement of the pyridine moiety. The bidentate chelate of this T3 ligand is nevertheless unlikely due to geometric reasons, and the large excess of ligands P3 and T3 compared to Cu(I) would prevent the formation of coordination networks.…”

A copper-templated, bifunctional organocatalyst: a strongly cooperative dynamic system for the aldol reaction

“…However, in the case of pyridine-thiourea ligands, only the 1,2-substituted pyridines (like T2) are known to bind in a bidentate fashion leading to discrete Cu(I) complexes. [43][44] 1,3-and 1,4-pyridine-thiourea ligands yield coordination networks with Cu(I) instead. 44 In this respect we have shown in Figure 2 how both the pyridine and thiourea moieties of T3 ligand (1,3 substitution) are necessary and clearly superior to a pyridine-free analogue, which highlights the requirement of the pyridine moiety.…”

“…[43][44] 1,3-and 1,4-pyridine-thiourea ligands yield coordination networks with Cu(I) instead. 44 In this respect we have shown in Figure 2 how both the pyridine and thiourea moieties of T3 ligand (1,3 substitution) are necessary and clearly superior to a pyridine-free analogue, which highlights the requirement of the pyridine moiety. The bidentate chelate of this T3 ligand is nevertheless unlikely due to geometric reasons, and the large excess of ligands P3 and T3 compared to Cu(I) would prevent the formation of coordination networks.…”

A copper-templated, bifunctional organocatalyst: a strongly cooperative dynamic system for the aldol reaction

“…For potential applications of heterocyclic thioamides and their metal complexes, see: Battistuzzi & Peyronel (1981); Holm & Solomon (1996); Cox et al (2006); Falcomer et al (2006); Sevier & Kaiser (2006); Saxena et al (2009). For related structures, see: Lemos et al (2001); Aslanidis et al (2004); Freeman et al (2008).…”

“…The studies of cooordination multidentate ligands such as heterocyclic thioamides, in complexes of closed-shell d 10 metal ions, have been shown attention from a number of researchers (Saxena et al, 2009;Cox et al, 2006;Falcomer et al, 2006) because of their interesting biochemical properties and presence in active sites of many metalloproteins (Holm & Solomon, 1996;Battistuzzi & Peyronel, 1981). Particularly, the formation of disulfide bonds is an essential step in the folding and assembly of the extracellular domains of many membrane and secreted proteins which are important features of the structure of many proteins (Sevier & Kaiser, 2006).…”

Di-μ-bromido-bis({2-[(4,6-dimethylpyrimidin-2-yl)disulfanyl]-4,6-dimethylpyrimidine-κ²N¹,S²}copper(I))

“…This class of ligands can form six-membered chelate rings upon coordination with metal cations via the pyridyl N atom and the thiourea S atom (Mansour & Friedrich, 2017;Bharati et al, 2013), or can bridge two metal centres via the thione functionality to form polymetallic clusters (Hollmann et al, 2017;Saxena et al, 2009;Lenthall et al, 2007). Analogous to urea-based ligands, they can also serve as hydrogen-bond donors to anions via their amine groups, leading to larger supramolecular assemblies (Qureshi et al, 2016;Akhuli et al, 2013).…”

Copper(II)- and gold(III)-mediated cyclization of a thiourea to a substituted 2-aminobenzothiazole