In the past decades, molecular electronics have been widely researched in many fields and extended metal atom chains (EMACs) are of considerable significance for their potential applications in molecular wires and nanoelectronics. In order to develop new generation of metal string complexes, a heterometallic framework have been studied. Compared to homonuclear complexes, the structure, magnetic properties and resistance of mixed metal complexes are versatile. Therefore, the aim of this thesis is to synthesize linear oligo-nuclear metal string complexes with the shortest and symmetric ligand made up of pyridyl and naphthyridyl groups, 2,7-bis(α-pyridylamino)-1,8-naphthyridine (H2bpyany), and investigate their structures, magnetic properties and electrochemistry. [Ni3Mo2(μ5-bpyany)4Cl](BF4) (1) was prepared from a reaction mixture containing Mo2(OAc)4, Ni(OAc)2·4H2O, LiCl and H2bpyany in refluxing naphthalene under an argon atmosphere. 2,7-Bis(α-pyridylamino)-1,8-naphthyridine (H2bpyany) used in this thesis was a hexadentate ligand and hence could support a linear chain of six metal ions. However, the X-Ray structure showed that the complex (1) was a pentanuclear heterometal string complexes (HMSCs), and one of nitrogens on the pyridines didsn’t bond to any metals. The Ni-N distances with terminal nickel atoms (2.09 Å) were considerably different from those with inner nickel atoms (1.89 Å) in these homometallic Ni string complexs. However, the Ni3-Nny distances (2.02 Å) of the complex (1), which was inner nickel atom, were longer than Ni-N distances with terminal nickel atoms. The elongation of this Ni3-Nny bond might be attributed to the whole expansion of coordination environment by Mo Mo fragment with longer metal-ligand distances. A consequence of this elongation, a different spin state of the Ni2+ ion, was therefore proposed. This assumption was further supported by the magnetic measurement, and it was the reason that the complex (1) exhabited antiferromagnetic interaction (J = -97 cm-1) from magnetic studies. Then, the complex (1) was employed to react with other metal salts ([Ru(COD)(CH3CN)2Cl2]、[Rh(COD)Cl]2) to generate heterometallic EMACs, [Ni3Mo2Ru(μ6-bpyany)4Cl2](BF4)2 (2) and [Ni3Mo2Rh(μ6-bpyany)4Cl2](BF4)2 (3) , containing three kinds of metals. By the metallic bond lengths of the complex (2) and (3), there were different bondings between the Mo-Ru bond and the Mo-Rh bond. We replaced the nickel with the cobalt and used the similar synthesized way to get pentanuclear HMSCs, [Co3Mo2(μ5-bpyany)4Cl](ClO4) (4), whose structure was isostructural with the complex (1). The magnetic studies showed a spin crossover property in the complex (4).