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  • Electrode Tortuosity Tester & Separator Ion Conductivity Tester
  • Electrode Tortuosity Tester & Separator Ion Conductivity Tester
  • Electrode Tortuosity Tester & Separator Ion Conductivity Tester
Electrode Tortuosity Tester & Separator Ion Conductivity Tester Electrode Tortuosity Tester & Separator Ion Conductivity Tester Electrode Tortuosity Tester & Separator Ion Conductivity Tester

Electrode Tortuosity Tester & Separator Ion Conductivity Tester

  • Product Name:Electrode Tortuosity Tester & Separator Ion Conductivity Tester
  • Model:KAT-EIC
  • Brand Name: KAT
  • Email: saleskatbattery@gmail.com
  • Mobile: +86 18650702009
  • INQUIRY

Electrode Tortuosity Tester & Separator Ion Conductivity Tester



Characteristic

1. Calculate the tortuosity of the electrode by testing the EIS of the battery with symmetrical electrodes.

2. Simple assembly, automated testing and analysis, simplified operating steps, and improved testing efficiency.

3. Four-channel synchronous test.

4. McMullin Number and Tortuosity Measurement


Application

1. Electrode tortuosity test

2. Separator ion conductivity test


Description

1. Creative Solution One

1.1 Creative Solution:

1) Calculate the MacMullin number of the electrode by testing the EIS of the symmetric cell.
2) Simplify assembly, automate testing and analysis processes, streamline operation steps,and enhance testing efficiency.
3) Synchronous testing across four channels.



1.2 Testing Principle:

1) Assemble symmetric batteries and conduct EIS testing.
2) As shown in the figure below, low-frequency segments of the EIS spectrum separately. The diference between the intersection of the fitting curves and the X-axis multiplied by 3 is the ionic resistance of the electrode coating.

3) Using the following formula, the MacMulin number can be calculated, This allows for the pre-evaluation of the electrochemica performance of the electrode after it is assembled into a cell. Therefore, characterization and compaison ofthe ionic conductivity of the electrode coating are particularly important.


IEST Electrode Tortuosity Tester & Separator Ion Conductivity Tester Details-3


Application Cases

Case 1. Different compaction density of cathode electrodes


IEST Electrode Tortuosity Tester & Separator Ion Conductivity Tester Details-5

Summary:

1) The consistency of ElS testing for symmetric battery of electrodes is generally good.
2) Within a certain range of compaction density, as the compaction increases, the ionic resistance/MacMullin numb also increases.


Case 2. Different compaction density of anode electrodes


IEST Electrode Tortuosity Tester & Separator Ion Conductivity Tester Details-6

Summary:

1) The consistency of ElS testing for symmetric battery of electrodes is generally good.
2) Within a certain range of compaction density, as the compaction increases, the ionic resistance/MacMullin numb also increases.


Case 3. The correlation between electrode tortuosity and electrochemical performance(Gr anode electrodes of different thicknesses)


IEST Electrode Tortuosity Tester & Separator Ion Conductivity Tester Details-7

Summary:

1) As the thickness of the electrode increases, its tortuosity also increases, However, the rate performance of the battery decreases with increasing thickness.
2) This indicates that the rate performance of the battery decreases with increasing tortuosity. There is a certain correlation between electrode tortuosity and rate performance of battery.


Case 4. Different coated separators(Ionic conductivity testing of four different coated separators)


IEST Electrode Tortuosity Tester & Separator Ion Conductivity Tester Details-8

Summary:

1) Test the EIS of 1-4 layers of separators to obtain R1, R2, R3, R4.
2) Plot a curve with the number of separator layers as the x-axis and separator resistance as the y-axis. Calculate the slope and linear fitting degree of the curve, with the linear fitting degree ≥0.99.
3) Calculate the separator ionic conductivity according to the formula.


Case 5. Correlation between the tortuosity of the electrode and its electrochemical performance in different electrolytes


IEST Electrode Tortuosity Tester & Separator Ion Conductivity Tester Details-10

Summary:

1) MacMullin number Ranking: Formula 2< Formula 1< Formula 3
2) Capacity retenuation Ranking(10C): Formula 2(93.92%) > Formula 1(90.55%)> Formula 3(89%)


Case 6.  Tortuosity & Wettability of LFP Cathodes with Different Compaction Densities


IEST Electrode Tortuosity Tester & Separator Ion Conductivity Tester Details-11



Summary:

1) Electrode with poorer wettability exhibit greater tortuosity.
2) As compaction density increases, electrolyte absorption declines, hindering permeation and lithium-ion migration, which elevates ion transport resistance and electrode tortuosity.


Specifications





Related Tags : Electrode Tortuosity ionic conductivity ion conductivity measurement Separator ionic conductivity MacMullin number
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Phone: +86 18650702009

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Email: saleskatbattery@gmail.com

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