A pentanuclear extended metal atom chains (EMACs) complex with two different metal ions call heteronuclear metal strings (HMSCs). Our group have published [NiRu2Ni2(tpda)4(NCS)2] with first pentanuclear heteronuclear metal strings complex which exhibits NDR effect. The combination of different metal ion to synthesize metal strings give a great expectation for future micro-elecronic decive. By tunning experimental condition,We have synthesized (2,2)-trans-[Ru4(tpda)4](BF4)、[NiRu4(tpda)4(NCS)2](PF6) complexes and characterized by using X-ray diffraction, IR, UV/Vis spectroscopy and magnetism. Due to heteronuclear metal strings complexes have different metal behavior in physical/chemistry propertys,We have measured the conductivity of [NiRu4(tpda)4(NCS)2](PF6) complex in order to compare with [NiRu2Ni2(tpda)4(NCS)2] and other homonuclear metal strings complexes. First part,We have successful synthesized (2,2)-trans-[Ru4(tpda)4](BF4) and we characterized by ESI-MS, X-ray single crystal diffraction. The crystal structure of (2,2)-trans-[Ru4(tpda)4](BF4) exhibit four ligands are transposition as (2,2)-trans comformation, and all ligands are binding four ruthenium ions. Bond lengths of Ru-Ru between 2.2468(5) Å and 2.2808(5) Å. There are two adjacent ligands which terminal pyridine (N5,N6) coordinated with terminal ruthenium (Ru1,Ru4). [NiRu4(tpda)4(NCS)2](PF6) have successful synthesized and characterized by ESI-MS and X-ray single crystal diffraction. The crystal structure have ligand disorder problem(left-/right- handed), and both terminal metal ions have disorder (50% Ni, 50% Ru). Four ligand binding five metal ions in linear mode. The magnetic measurement of complex is antiferromagnetic interaction ( J= - 44 cm-1),and the μeff value of 3.67μB at 300K,We can predict it have two magnetic centers (S=1,1/2),and the expermental value very close to theory value (μeff=3.31). According to cyclic voltammograms, [NiRu4(tpda)4(NCS)2](PF6) exhibit four oxidation waves at E1/2ox1 = +0.079 V、E1/2ox2 = +0.579 V、E1/2ox3 = +0.936 V、E1/2ox4 = +1.256 V and two reduction waves at E1/2red1 = -0.620 V、E1/2red2 = -1.656 V. Finally we measure the conductivity by STM-bj method, [NiRu4(tpda)4(NCS)2](PF6) have 4.05 x 10-5 G0 conductive value which is two order smalller than other metal string. Second part is Modificaton of phenyl group with quinoline and ligand is successful synthesized and characterized by 1H-NMR, ESI-MS. (2,2)-cis-[Ni3(phpqa)4(NCS)2] have successful synthesized and characterized by ESI-MS and X-ray single crystal diffraction. Four ligands are binding three nickel metal ions as linear type, and the (2,2)-cis comformation is comfirmed by X-ray diffraction. It is very similar bond length and comformation to non-modified phenyl group quinoline’s metal strings (2,2)-cis-[Ni3(pqa)4(NCS)2]. According to magnetic measurement , it exhibit antiferromagnetic interaction (J = - 88cm-1), and the μeff value of 3.96μB at 300K,We can predict it have three magnetic centers (S=1,0,1), and the expermental value very close to theory value (μeff=4 B.M.).