In this thesis, metal–organic coordination frameworks were prepared by reacting a ligand, 1,3,5-tris(benzimidazoyl-1-ylmethyl)-2,4,6-trimethylbenzene (TBzIm), with transition metal ions (ZnII, CoII, MnII, and NiII) and different carboxylic acids under hydrothermal conditions. We report eight compounds in this study, 4(H3O)+[Zn8(TBzIm)2(btc)4Cl8]•4H2O (1), [Zn12(TBzIm)2(bdc)4Cl16]•3H2O (2), [Co4(TBzIm)4(Hbtc)4] (3), [Co2(TBzIm)2(bdc)2]•3H2O (4), [Mn5Cl10(TBzIm)4]•1acetone (5), [Co2(Fum)2(TBzIm)2]n (6), [Ni2(Fum)2(TBzIm)2]n (7), and [Co12(TBzIm)4(D-Cam)12] (8). A semi-rigid tripodal ligand, TBzIm, was first reacted with different metal ions and aromatic carboxylic acids (trimesic acid, H3Btc and terephthalic acid, H2Bdc) to afford four compounds (1-4) under hydrothermal conditions. Compound 1 was obtained from the reaction of TBzIm, ZnCl2•4H2O, and H3Btc (H3Btc = 1,3,5-benzenetricarboxylic acid). Compound 2 was produced from the self-assembly of TBzIm, ZnCl2•4H2O, and H2Bdc (H2Bdc = 1,4-benzenedicarboxylic acid). Compound 3 was prepared from TBzIm, Co(SO)4•7H2O, and H3Btc. Compound 4 was obtained by reacting TBzIm, Co(SO)4•7H2O, and H2Bdc. In a second series of experiments, TBzIm was reacted with MnCl2•4H2O to produce compound 5, which exhibits a high spin ground state S = 15/2 and shows antiferromagnetic behavior. In a third series, TBzIm was reacted with different metal salts and several chiral carboxylic acids to produce three chiral compounds (6-8). Compound 6 was obtained when TBzIm, CoCl2•6H2O, and aspartic acid were used. Compound 7 was prepared from TBzIm, NiCl2•6H2O, and aspartic acid. Compound 8 was obtained by reacting TBzIm, CoCl2•6H2O, and D-camphoric acid. In the first part, compounds 1-3 adopt 2D layered structures and compound 4 has a 3D framework structure. The steric hindrance of TBzIm and aromatic carboxylic acids play important roles in the architectural engineering of the crystals. In the second part, the [Mn5Cl10] coordination core of compound 5 was found to exhibit interesting magnetic behavior and the TBzIm ligand shows a rarely observed conformation. In the third part, the chiral structures of compounds 6 and 7 were generated into helical arrays via an in-situ process. The chiral structure of compound 8 is constructed from three crystallographically independent binuclear carboxylate complexes {Co2(COO)4}, known as “paddle-wheel” types of secondary building units (SBU).