A Sonogashira coupling strategy was employed to synthesize a new series of allosteric modulators for the A1 adenosine receptor based on the 2-amino-3-(p-chlorobenzoyl)-4-substituted thiophene skeleton, with a two-carbon (rigid or flexible) linker between the 5-position of the thiophene ring and a (hetero)aryl or alkyl moiety. Among the compounds characterized by the presence of a common phenylacetylene moiety at the 5-position of the thiophene ring, the neopentyl substitution at the 4-position supported a strong activity. In the series of 4-neopentyl derivatives, the presence of an acetylene spacer at the 5-position of the thiophene is optimal for activity, whereas reduction of the acetylene to an ethyl moiety decreased activity, both in functional and binding assays. Derivatives 4e, 4g-h, 4j, 4l, and 4m were the most promising compounds in binding (saturation and competition) and functional cAMP studies, being able to potentiate agonist [(3)H]CCPA binding to the A1 receptor, with 4e as the best compound of the series. The latter compound also retarded the dissociation of another radiolabeled agonist, [(3)H]NECA, from the receptor.