Silver nanoplates as novel optical sensors for Cu^2+ detection have been demonstrated.Silver nanoplates are synthesized via previous H_2O_2-NaBH_4 cyclic oxidation-reduction reactions.With introduction of ascorbate a...Silver nanoplates as novel optical sensors for Cu^2+ detection have been demonstrated.Silver nanoplates are synthesized via previous H_2O_2-NaBH_4 cyclic oxidation-reduction reactions.With introduction of ascorbate as mild reductants,Cu^2+ ions are reduced into Cu~+ and the Cu^+ is further reduced to Cu,which is deposited on the surface of the silver nanoplates.The deposition of the Cu on the surface of the silver nanoplates allows a significant red-shift of their plasmon absorption.Therefore,trace Cu^2+ can be detected.The shift of the plasmon absorption wavelength of silver nanoplates is proportional to the Cu^2+concentration over a range of 40-340 μmol L^(-1) with a limit of detection of 9.0 μmol L^(-1).Moreover,such silver nanoplate-based optical sensors provide good selectivity for Cu^2+ detection,and most other metal ions do not disturb its detection.Moreover,the practicality of the proposed sensor was tested.This Cu^2+assay is advantageous in its simplicity,selectivity,and cost-effectiveness.展开更多
基金supported by the National Natural Science Foundation of China(No.21375036)the Open Project Program of Key Laboratory of Theoretical Chemistry and Molecular Simulation of Ministry of Education(Hunan University of Science and Technology,No.E21201)
文摘Silver nanoplates as novel optical sensors for Cu^2+ detection have been demonstrated.Silver nanoplates are synthesized via previous H_2O_2-NaBH_4 cyclic oxidation-reduction reactions.With introduction of ascorbate as mild reductants,Cu^2+ ions are reduced into Cu~+ and the Cu^+ is further reduced to Cu,which is deposited on the surface of the silver nanoplates.The deposition of the Cu on the surface of the silver nanoplates allows a significant red-shift of their plasmon absorption.Therefore,trace Cu^2+ can be detected.The shift of the plasmon absorption wavelength of silver nanoplates is proportional to the Cu^2+concentration over a range of 40-340 μmol L^(-1) with a limit of detection of 9.0 μmol L^(-1).Moreover,such silver nanoplate-based optical sensors provide good selectivity for Cu^2+ detection,and most other metal ions do not disturb its detection.Moreover,the practicality of the proposed sensor was tested.This Cu^2+assay is advantageous in its simplicity,selectivity,and cost-effectiveness.
