| 1 |
Tricopper(I) Complexes Encapsulating a {Cu3X3} Core Structure (X = Cl, Br, and I) in a Polyaza Cryptand
Nagata K, Hatanaka T, Fukui K, Inomata T, Ozawa T, Tsuge K, Masuda H, Funahashi Y
Chemistry Letters, 45(5), 541, 2016 |
| 2 |
Bis-macrocyclic ligands with two ferrocenyl end groups, and their tetranuclear dicopper(I) compounds
Comba P, Ensling J, Gutlich P, Kuhner A, Peters A, Pritzkow H
Inorganic Chemistry, 38(14), 3316, 1999 |
| 3 |
Prototropic vs Whole Water Exchange Contributions to the Solvent Relaxation Enhancement in the Aqueous-Solution of a Cationic Gd3+ Macrocyclic Complex
Aime S, Barge A, Botta M, Parker D, Desousa AS
Journal of the American Chemical Society, 119(20), 4767, 1997 |
| 4 |
Small Azaparacyclophanes as Potential Selective Scavengers of Mercury - Crystal-Structure of the Complex Hg-2(L1)Cl-4 (L1=16,17,19,20-Tetramethyl-2,6,9,13-Tetraaza(14)Paracyclophane)
Garciaespana E, Latorre J, Luis SV, Miravet JF, Pozuelo PE, Ramirez JA, Soriano C
Inorganic Chemistry, 35(16), 4591, 1996 |
| 5 |
Synthesis, Crystal-Structure, and Potentiometry of Pridine-Containing Tetraaza Macrocyclic Ligands with Acetate Pendant Arms
Kim WD, Hrncir DC, Kiefer GE, Sherry AD
Inorganic Chemistry, 34(8), 2225, 1995 |
| 6 |
Synthetic Models for Transmembrane Channels - Structural Variations That Alter Cation Flux
Murillo O, Watanabe S, Nakano A, Gokel GW
Journal of the American Chemical Society, 117(29), 7665, 1995 |
