A novel method for the efficient discovery of new types of minor actinide (MA) ligands is based on the unique combination of "tea bag" split pool combinatorial chemistry and screening based on the inherent radioactivity of the complexed cations. Four multicoordinating AM(3+) chelating groups, such as CMPO (diphenylcarbamoylmethyl)phosphine oxide), PICO (picolinamide), DGA (N,N'-dimethyldiglycoldiamide),and MPMA (N-methyl-N-phenylmalonamide), on a trityl platform immobilized on TentaGeIS served as a model library for. the development of the screening method. This model library was screened under various conditions (i.e., 0.001 M <= [HNO3] <= 3 M, NaNO3 <= 4 M, and [Eu] <= 10 x [ligand]) showing competitive extraction of the tour ligands. Other libraries of 9 and 72 members were synthesized by functionalization of the trityl platform with ligating groups that are composed of four building blocks (including at least one amide and one (phosphoric) hydrazone moiety). The screening of these two libraries resulted in the discovery of two multicoordinate ligands that contain ligating groups previously not known to complex AM(3+). Both are N-isopropyl amides terminated with a p-methoxyphenyl hydrazide (A(2)B1C1D10 K-D(Am) = 2197) or a p-nitrophenyl hydrazide (A2B1C1D11 K-D(Am) = 1 989) moiety, respectively. They are more efficient than the immobilized tritylCMPO ligand (K-D(Am) = 1280) at 3 M HNO3. This method has the advantages of a high analytical sensitivity and the direct comparison of the extraction results. The method also allows the competitive screening of multiple nuclides which can be quantified by their radioactive emission spectrum.