GAOSHI-P-004 RDE Rotary Silver-Silver Ion Electrode Introduction: In order to study the distribution of current density on the electrode surface and reduce or eliminate the influence of factors such as diffusion layers, electrochemical researchers developed a high-speed rotating electrode by comparing various electrodes and stirring methods. It is like a disk, so it is also called a rotating disk electrode, abbreviated as a rotating disk electrode, or a rotating disk electrode. There are also further improved rotating ring electrodes based on this electrode, which can measure the electrochemical parameters of more complex electrode processes. use: The rotating ring disk electrode can be used to detect the presence and amount of electrode reaction products, especially intermediate products, or the stability of the disk electrode reaction products captured on the ring electrode. These measurements can be used to detect some complex electrodes. mechanism of the reaction and obtain more information on the electrode process. Therefore, it is a commonly used test method in modern electrochemical measurements. This electrode can be used to test the mechanism of action of electroplating additives or to compare the performance of additives. GAOSHI-P-004 RDE rotating silver-silver ion electrode adopts external thread design, which has better contact and stable signal transmission. Can be used as silver-silver ion electrode for organic systems
Introduction: In order to study the distribution of current density on the electrode surface and reduce or eliminate the influence of factors such as diffusion layers, electrochemical researchers developed a high-speed rotating electrode by comparing various electrodes and stirring methods. It is like a disk, so it is also called a rotating disk electrode, abbreviated as a rotating disk electrode, or a rotating disk electrode. There are also further improved rotating ring electrodes based on this electrode, which can measure the electrochemical parameters of more complex electrode processes.