Nickel-containing superoxide dismutase (NiSOD), has been discovered recently from Streptomyces species and marine cyanobacteria. NiSOD can catalyze the dismutation of O2− into O2 and H2O2 through a cycle of Ni(II) and Ni(III) oxidation states. In order to mimic the fuction of the active site of the NiSOD, a series of pentadentate ligands equipped with pyridine and proline derivatives have been designed and prepared. The prepared ligand, for instance 2,6-bis(((S)-2-(diphenylhydroxymethyl)-1-pyrrolidinyl)methyl)pyridine (H2BDPP), was deprotonated and employed to react with [Ni(CH3CN)6](ClO4)2 to give fivecoordinate Ni(BDPP) (5). Complex 5 can be readily oxidized by [Cp2Fe]PF6 at room temperature to form a stable Ni(III) complex, [Ni(BDPP)](PF6) (6). Complexes 5 and 6 were characterized by UV/vis spectroscopy, X-ray crystallography and cyclic voltammetry. Importantly, complex 6 can oxidized O2− to form O2, and its EPR spectrum is similar to that of the oxidaized form of NiSOD. In addition, direct reaction of H2BDPP reacted with Ni(BF4)2 and t-butylisocyanide gave six-coordinate [Ni(H2BDPP)(tBuNC)](BF4)2 (7), which exhibited the function of NiSOD. The reaction of 7 with KO2 released O2 gas, detected by GC, and generated H2O2, confirmed by peroxide test paper, peroxide indicator (LCV) and NMR spectroscopy.To enhance the water solubility and the electron donating ability of the NiSOD mimics, we designed and synthesized complexes 10, 11 and 14 with a hydroxy or methoxytriglycol (OTEG) group on the 4-position of pyrrolidine, and complexes 12 and 13 with a methoxyl and trimethylsilyl group on the para-position of four phenyl rings, respectively. On the other hand, two complexes, [Ni(BMePP)(CH3CN)](ClO4)2(15) and [Ni(BiPrPP)(CH3CN)](ClO4)(BPh4) (16) were synthesized (where BRPP =2,6-bis(((S)-2-(alkyloxycarbonyl)-1-pyrrolidinyl)methyl)pyridine), Me = methyl, iPr= isopropyl), and they can be employed as a catalyst for thia-Michael addition of thiols to α,β-enones. Notably, complex 15 possesses an excellent catalytic ability for thia-Michael reaction and gives good yields for 1,4-adducts.