我非常欣賞您在論文中介紹的技術和方法，尤其是基於電化學頻譜阻抗(EIS

I really appreciate the technology and methods you introduced in your paper, especially the rapid and accurate prediction of the probability of short circuit occurrence in lithium batteries based on electrochemical impedance spectrum (EIS). I would like to ask you about Test numbers 2, 4, 6, 8, and 10 in the experiment, that is, when performing the ISC test, when the battery is charged or discharged to a specific SOC, the external resistor is continuously connected, and leakage current is continuously generated during the charging and discharging process. , or charge and discharge to a specific SOC and return to OCV before connecting the external resistor and measuring EIS? Since my research is very similar to the experimental setup of this paper, I would like to ask if you have time to answer me some questions about your research. What about the problem?

I greatly appreciate the techniques and methods you introduced in your paper, especially the fast and accurate prediction of the probability of short circuits in lithium batteries based on electrochemical impedance spectroscopy (EIS). May I ask if during the experiment, during Test number2, 4, 6, 8, and 10, which means during the ISC test, when the battery is charged or discharged to a specific SOC, the external resistance is continuously connected and leakage current is continuously generated during the charging and discharging process, or is it only after charging and discharging to a specific SOC and returning to the OCV that the external resistance is connected and the EIS is measured? Since my research is very similar to the experimental setup of this paper, do you have time to answer some questions about your research?

I really appreciate the techniques and methods introduced in your paper, especially the rapid and accurate prediction of the probability of short circuit in lithium batteries based on electrochemical spectral impedance (EIS). I would like to ask you in the experiment, Test number2, 4, 6, 8, 10, that is, when the ISC test is performed, when the battery is charged or discharged to a specific SOC, is the external resistor continuously turned on, and leakage current is continuously generated during the charging and discharging process, or is it charged and discharged to a specific SOC, and then the external resistor is turned on and EIS is measured after returning to OCV? Since my research is very similar to the experimental setup of this paper, I wonder if you have time to answer some questions about your research?