Ferrate(VI) was employed for the oxidation of cyanide (CN) and simultaneous removal of copper or nickel in the mixed/complexed systems of CN-Cu, CN-Ni, or CN-Cu-Ni. The degradation of CN (1.00 mmol/L) and remova...Ferrate(VI) was employed for the oxidation of cyanide (CN) and simultaneous removal of copper or nickel in the mixed/complexed systems of CN-Cu, CN-Ni, or CN-Cu-Ni. The degradation of CN (1.00 mmol/L) and removal of Cu (0.095 mmol/L) were investigated as a function of Fe(Ⅵ) doses from 0.3-2.00 mmol/L at pH 10.0. It was found that Fe(Ⅵ) could readily oxidize CN and the reduction of Fe(Ⅵ) into Fe(Ⅲ) might serve efficiently for the removal of free copper ions. The increase in Fe(Ⅵ) dose apparently favoured the CN oxidation as well as Cu removal. Moreover, the pH dependence study (pH 10.0-13.0) revealed that the oxidation of CN was almost unaffected in the studied pH range (10.0-13.0), however, the maximum removal efficiency of Cu was obtained at pH 13.0. Similarly, treatment was carded out for CN-Ni system having the initial Ni concentration of 0.170 mmol/L and CN concentration of 1.00 mmol with Fe(Ⅵ) dose 2.00 mmol at various pH values (10.0-12.0). Results showed a partial oxidation of CN and partial removal of Ni. It can be observed that Fe(Ⅵ) can partially degrade the CN-Ni complex in this pH range. Further, Fe(Ⅵ) was applied for the treatment of simulated industrial waste/effluent waters treatment containing CN, Cu, and Ni.展开更多
One of the phenolic acids is 4-hydroxybenzoic acid(HBA)which takes the form of a white crystalline solid with a molecular formula of C 7H 6O 3,a melting point of 214.5℃and a molecular weight of 138.12 g·mol^(-1)...One of the phenolic acids is 4-hydroxybenzoic acid(HBA)which takes the form of a white crystalline solid with a molecular formula of C 7H 6O 3,a melting point of 214.5℃and a molecular weight of 138.12 g·mol^(-1).It soluble in polar organic solvents like acetone and alcohols,and slightly soluble in chloroform and water.The reactions between the metal ions and the HBA were carried out under specific conditions like(molar reaction was 2∶2(ligand to metal),reaction temperature was 60℃,media was neutral(pH 7),and solvent was H 2O∶MeOH(1∶1).Under these conditions,the HBA was deprotonated to form(HOC_(6)H_(4)CO^(2);L^(-)).The ligand L-was coordinated to the metal ions forming the metal complexation.The reaction of 4-hydroxybenzoic acid(HOC 6H 4CO 2H;HL)with the Ni(Ⅱ),Mn(Ⅱ)and Cu(Ⅱ)ions afford metal-complexes with gross formula of[Ni_(2)L_(2)(NO_(3))_(2)(H_(2)O)_(4)],[Mn_(2)L_(2)(NO_(3))_(2)(H_(2)O)_(4)]and[Cu_(2)L_(2)(NO_(3))_(2)(H_(2)O)_(4)],respectively.These complexes were characterized by elemental analysis(CHN),magnetic susceptibility,UV-Vis spectra,infrared(IR),and X-ray powder diffraction(XRD)techniques.The complexes of HBA are insoluble in common solvents and hence molar conductance could not be measured,but this very insolubility indicates that the complexes are neutral.Data has demonstrated that the ligand(L^(-))was coordinated to the metal ion by bidentate bridging carboxylate group(COO^(-)),with an octahedral geometry.Thus,HBA is expected to act as bidentate uninegative ions and the coordination number of the metal ions is six.XRD results showed that the complexes possess uniform and organized microstructures in the nanometer range with a main diameter in the range of 11~28 nm.展开更多
基金supported by the grant of the Basic Research Program of the Korea Science & Engineering Foundation (No R01-2006-000-10284-0)
文摘Ferrate(VI) was employed for the oxidation of cyanide (CN) and simultaneous removal of copper or nickel in the mixed/complexed systems of CN-Cu, CN-Ni, or CN-Cu-Ni. The degradation of CN (1.00 mmol/L) and removal of Cu (0.095 mmol/L) were investigated as a function of Fe(Ⅵ) doses from 0.3-2.00 mmol/L at pH 10.0. It was found that Fe(Ⅵ) could readily oxidize CN and the reduction of Fe(Ⅵ) into Fe(Ⅲ) might serve efficiently for the removal of free copper ions. The increase in Fe(Ⅵ) dose apparently favoured the CN oxidation as well as Cu removal. Moreover, the pH dependence study (pH 10.0-13.0) revealed that the oxidation of CN was almost unaffected in the studied pH range (10.0-13.0), however, the maximum removal efficiency of Cu was obtained at pH 13.0. Similarly, treatment was carded out for CN-Ni system having the initial Ni concentration of 0.170 mmol/L and CN concentration of 1.00 mmol with Fe(Ⅵ) dose 2.00 mmol at various pH values (10.0-12.0). Results showed a partial oxidation of CN and partial removal of Ni. It can be observed that Fe(Ⅵ) can partially degrade the CN-Ni complex in this pH range. Further, Fe(Ⅵ) was applied for the treatment of simulated industrial waste/effluent waters treatment containing CN, Cu, and Ni.
基金the deanship of scientific Research at Princess Nourah bint Abdulrahman University through the Fast-track Research Funding program。
文摘One of the phenolic acids is 4-hydroxybenzoic acid(HBA)which takes the form of a white crystalline solid with a molecular formula of C 7H 6O 3,a melting point of 214.5℃and a molecular weight of 138.12 g·mol^(-1).It soluble in polar organic solvents like acetone and alcohols,and slightly soluble in chloroform and water.The reactions between the metal ions and the HBA were carried out under specific conditions like(molar reaction was 2∶2(ligand to metal),reaction temperature was 60℃,media was neutral(pH 7),and solvent was H 2O∶MeOH(1∶1).Under these conditions,the HBA was deprotonated to form(HOC_(6)H_(4)CO^(2);L^(-)).The ligand L-was coordinated to the metal ions forming the metal complexation.The reaction of 4-hydroxybenzoic acid(HOC 6H 4CO 2H;HL)with the Ni(Ⅱ),Mn(Ⅱ)and Cu(Ⅱ)ions afford metal-complexes with gross formula of[Ni_(2)L_(2)(NO_(3))_(2)(H_(2)O)_(4)],[Mn_(2)L_(2)(NO_(3))_(2)(H_(2)O)_(4)]and[Cu_(2)L_(2)(NO_(3))_(2)(H_(2)O)_(4)],respectively.These complexes were characterized by elemental analysis(CHN),magnetic susceptibility,UV-Vis spectra,infrared(IR),and X-ray powder diffraction(XRD)techniques.The complexes of HBA are insoluble in common solvents and hence molar conductance could not be measured,but this very insolubility indicates that the complexes are neutral.Data has demonstrated that the ligand(L^(-))was coordinated to the metal ion by bidentate bridging carboxylate group(COO^(-)),with an octahedral geometry.Thus,HBA is expected to act as bidentate uninegative ions and the coordination number of the metal ions is six.XRD results showed that the complexes possess uniform and organized microstructures in the nanometer range with a main diameter in the range of 11~28 nm.
基金the National Key Research and Development Program of China(No.2018YFC1903400)the Key Program for International S&T Cooperation Projects of China(No.2021YFE0106800)+1 种基金the National Natural Science Foundation of China(Nos.52164020,52174248)the Science and Technology Research Project of Education Department of Jiangxi Province,China(No.GJJ190442).