Electrogenerated chemiluminescence(ECL)imaging is gaining increasing attention in various fields because of its high sensitivity,low background,and good temporal and spatial resolution.However,ECL imaging of microsize...Electrogenerated chemiluminescence(ECL)imaging is gaining increasing attention in various fields because of its high sensitivity,low background,and good temporal and spatial resolution.However,ECL imaging of microsized objects at the opaque electrode via top-view configuration is challenged with the reactants'diffusion and light propagation.Here,we imaged and numerically simulated ruthenium derivative coating polystyrene microbeads(Ru1-PS@MB)at the glassy carbon electrode(GCE)via top-view configuration by ECL imaging.The ruthenium derivative(bis(2,2′-bipyridine)-4′-methyl-4-carboxybipyridine-ruthenium N-succinimidyl ester-bis(hexafluorophosphate),Ru1),a typical ECL reagent,was covalently linked onto the surface of aminated PS@MBs via the amide reaction.“Strong emission in edge and weak emission in center”phenomena for fluorescence(FL)and ECL emissions were obtained from Ru1-PS@MB on GCE.ZStack imaging of the microsized Ru1-PS@MB luminescence was performed on GCE in the presence of tri-n-propylamine(TPA).It is found that the clear luminescence range of Ru1-PS@MB perpendicular to the electrode surface in ECL image is slightly smaller than that in the FL image.The bigger was the diameter of the microbeads(from 5 to 18μm),the larger was the ECL luminescence range of Ru1-PS@MB perpendicular to the electrode surface(from 5 to 7μm).Our findings,which are also supported by numerical simulation,provide insights into the ECL imaging of microsized objects at the electrode surface,which will raise promising ECL applications in bioassays and cell imaging at the microscale level.展开更多
基金supported by the National Natural Science Foundation of China(22074087,21970481)the 111 Project(B14041),and the Fundamental Research Funds for the Central Universities(nos.GK202202002 and LHRCTS23073).
文摘Electrogenerated chemiluminescence(ECL)imaging is gaining increasing attention in various fields because of its high sensitivity,low background,and good temporal and spatial resolution.However,ECL imaging of microsized objects at the opaque electrode via top-view configuration is challenged with the reactants'diffusion and light propagation.Here,we imaged and numerically simulated ruthenium derivative coating polystyrene microbeads(Ru1-PS@MB)at the glassy carbon electrode(GCE)via top-view configuration by ECL imaging.The ruthenium derivative(bis(2,2′-bipyridine)-4′-methyl-4-carboxybipyridine-ruthenium N-succinimidyl ester-bis(hexafluorophosphate),Ru1),a typical ECL reagent,was covalently linked onto the surface of aminated PS@MBs via the amide reaction.“Strong emission in edge and weak emission in center”phenomena for fluorescence(FL)and ECL emissions were obtained from Ru1-PS@MB on GCE.ZStack imaging of the microsized Ru1-PS@MB luminescence was performed on GCE in the presence of tri-n-propylamine(TPA).It is found that the clear luminescence range of Ru1-PS@MB perpendicular to the electrode surface in ECL image is slightly smaller than that in the FL image.The bigger was the diameter of the microbeads(from 5 to 18μm),the larger was the ECL luminescence range of Ru1-PS@MB perpendicular to the electrode surface(from 5 to 7μm).Our findings,which are also supported by numerical simulation,provide insights into the ECL imaging of microsized objects at the electrode surface,which will raise promising ECL applications in bioassays and cell imaging at the microscale level.
