Thermodynamic properties and electrochemical behaviors of gold and its associated elements, such as silver, copper, nickel and iron, in various complex agent solutions were studied. Within CS(NH_2)_2, S_2O~(2-)_3 and SCN~- systems, alkaline thiourea is the optimal nontoxic lixiviating agent substituting cyanide from the viewpoint of thermodynamics. The electrochemical study indicates that the anodic dissolution current densities of gold are 2.616, (1.805,) 1.267, 1.088, 0.556, and 0.145 mA·cm~(-2) respectively in the solutions of cyanide, alkaline thiourea containing Na_2SiO_3, SCN~-, acidic thiourea, alkaline thiourea and thiosulfate at the potential of 0.500 V. Comparing various lixiviating agents, the alkaline thiourea solution containing Na_2SiO_3 is of prominent selectivity in leaching gold, in the potential range from 0.500 to 0.600 V, which is most efficient for leaching gold selectively instead of cyanide. The effect on leaching gold is similar to that in the cyanide system. Thermodynamic properties and electrochemical behaviors of gold and its associated elements, such as silver, copper, nickel and iron, in various complex agent solutions were studied. Within CS (NH_2) _2, S_2O_ (2 -) _3 and SCN ~ - systems, alkaline thiourea is the optimal nontoxic lixiviating agent substituting cyanide from the viewpoint of thermodynamics. The electrochemical study indicates that anodic dissolution current densities of gold are 2.616, (1.805), 1.267, 1.088, 0.556, and 0.145 mA · cm -2 ) respectively in the solution of cyanide, alkaline thiourea containing Na_2SiO_3, SCN ~ -, acidic thiourea, alkaline thiourea and thiosulfate at the potential of 0.500 V. Comparing various ligands, the alkaline thiourea solution containing Na_2SiO_3 is of prominent selectivity in leaching gold, in the potential range from 0.500 to 0.600 V, which is most efficient for leaching gold-only instead of cyanide. The effect on leaching gold is similar to that in the cyanide system.