The [FeFe]-hydrogenase is a biological catalyst for reversible proton reduction to hydrogen which have caught the attention of a broad range of researchers. Dinitrosyl iron complexes (DNICs) have been known to be a possible from for nitric oxide release and storage. We will design a new types of hydrogen catalyst.We use [FeFe]-hydrogenase as a reference, simplify to synthesize a stable metal compound, a cheap and efficient hydrogen-producing catalyst. Three types of oxidation states of non-innocent ligand, nitric oxide (nitrosyl / nitric oxide / nitroxyl), was utilized. NHC (N-Heterocyclic Carbene), a good σ-donor and resonance property. Both of them would stabilize the structure. The 2-(dimethylamino) benzenethiol and 2-aminothiophenol ligand were adopted as pendent base. Ours potential models complex (IMes)(SR)Fe(NO)2 (IMes=1,3-bis(2,4,6-trimethylphenyl -imidazol-2-ylidene, R =C6H4-o-NH2) (3) and (IMes)(SR’)Fe(NO)2 ( R’=C6H4-o-NMe2) (4) , both of them are easy to synthesize and thermal/air stable. The IR spectrum point out the chemical environment of iron center is similar. Complex 3 and 4 show a good redox ability at E1/2=-1.40, ipa/ipc =0.94 of 3, E1/2=-1.45, ipa/ipc =0.96 of 4, respectively. When acid added, complexe 4 be a good electrochemical catalysis for H2 production than complex 2, the Lewis base functional group (dimethylamine terminal) enhance the efficiency.