Method of evaluating power storage device, method of manufacturing power storage device, and test system

What is claimed is: 1. A method of evaluating a lithium ion secondary cell comprising: preparing a lithium ion secondary cell including at least a casing and an electrode assembly, the casing having a prismatic shape or a flat shape, the electrode assembly being accommodated in the casing, the electrode assembly including a positive electrode and a negative electrode, at least one positive electrode and at least one negative electrode being alternately stacked to form a stack portion in the electrode assembly; adjusting a charge level of the lithium ion secondary cell to produce a first potential difference between the positive electrode and the negative electrode; selecting the positive electrode or the negative electrode as a reference electrode; performing an operation to insert a conductive rod-shaped member into the stack portion along a direction of stack of the positive electrode and the negative electrode while a second potential difference between the reference electrode and the rod-shaped member is measured after the charge level is adjusted; stopping the rod-shaped member; and evaluating the lithium ion secondary cell based on a state of the lithium ion secondary cell after the rod-shaped member is stopped, when an electrode with which the rod-shaped member comes in contact first in the stack portion is different from the reference electrode, the operation to insert the rod-shaped member being controlled to stop the rod-shaped member when decrease in absolute value of the second potential difference is detected at least once, and when the electrode with which the rod-shaped member comes in contact first in the stack portion is identical to the reference electrode, the operation to insert the rod-shaped member being controlled to stop the rod-shaped member when increase in the absolute value of the second potential difference is detected at least once. 2. The method of evaluating a lithium ion secondary cell according to claim 1 , wherein the rod-shaped member is inserted into the stack portion from outside of the casing. 3. The method of evaluating a lithium ion secondary cell according to claim 1 , wherein the positive electrode is selected as the reference electrode. 4. The method of evaluating a lithium ion secondary cell according to claim 1 , wherein the electrode with which the rod-shaped member comes in contact first in the stack portion is different from the reference electrode. 5. The method of evaluating a lithium ion secondary cell according to claim 4 , the method further comprising evaluating the lithium ion secondary cell by detecting increase in the absolute value of the second potential difference while the rod-shaped member remains stopped after the rod-shaped member is stopped. 6. The method of evaluating a lithium ion secondary cell according to claim 5 , the method further comprising evaluating the lithium ion secondary cell based on a time period elapsed since a time point of stop of the rod-shaped member until a time point of increase in the absolute value of the second potential difference. 7. The method of evaluating a lithium ion secondary cell according to claim 4 , wherein the operation to insert the rod-shaped member is controlled to stop the rod-shaped member when decrease in the absolute value of the second potential difference is detected a plurality of times. 8. The method of evaluating a lithium ion secondary cell according to claim 1 , wherein the electrode with which the rod-shaped member comes in contact first in the stack portion is identical to the reference electrode. 9. The method of evaluating a lithium ion secondary cell according to claim 8 , the method further comprising evaluating the lithium ion secondary cell by detecting decrease in the absolute value of the second potential difference while the rod-shaped member remains stopped after the rod-shaped member is stopped. 10. The method of evaluating a lithium ion secondary cell according to claim 9 , the method further comprising evaluating the lithium ion secondary cell based on a time period elapsed since a time point of stop of the rod-shaped member until a time point of decrease in the absolute value of the second potential difference. 11. The method of evaluating a lithium ion secondary cell according to claim 8 , wherein the operation to insert the rod-shaped member is controlled to stop the rod-shaped member when increase in the absolute value of the second potential difference is detected a plurality of times. 12. A method of manufacturing a lithium ion secondary cell comprising at least: manufacturing a plurality of the lithium ion secondary cells; and evaluating one or more of the plurality of the lithium ion secondary cells by the method of evaluating a lithium ion secondary cell according to claim 1 . 13. A test system for evaluating a lithium ion secondary cell, the lithium ion secondary cell including at least a casing and an electrode assembly, the casing having a prismatic shape or a flat shape, the electrode assembly being accommodated in the casing, the electrode assembly including a positive electrode and a negative electrode, at least one positive electrode and at least one negative electrode being alternately stacked to form a stack portion in the electrode assembly, the test system comprising: a drive device; a voltage measurement device; and a control device, the drive device being configured to perform an operation to insert a conductive rod-shaped member into the stack portion along a direction of stack of the positive electrode and the negative electrode, the voltage measurement device being configured to measure a potential difference between a reference electrode and the rod-shaped member, the positive electrode or the negative electrode being selected as the reference electrode, the control device being configured to carry out at least one of first control and second control, in the first control, when an electrode with which the rod-shaped member comes in contact first in the stack portion is different from the reference electrode, the operation to insert the rod-shaped member by the drive device being controlled to stop the rod-shaped member when decrease in absolute value of the potential difference is detected at least once, and in the second control, when the electrode with which the rod-shaped member comes in contact first in the stack portion is identical to the reference electrode, the operation to insert the rod-shaped member by the drive device being controlled to stop the rod-shaped member when increase in the absolute value of the potential difference is detected at least once.