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Deep Dive – Interfaces: Lithium Metal Electrodes – Polymer-based Electrolytes
Version: 2024-09-03, for paid subscribers
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This chapter includes a comprehensive analysis of polymer-based electrolytes for lithium metal electrodes, including:
- Detailed patent analysis across leading companies (such as CATL, Dynanonic, Factorial Energy, Blue Solutions, Piersica) with reported ionic conductivity benchmarks up to 1.2 × 10-2 S/cm
- Assessment of key polymer structures, including novel supramolecular architectures that form lithium ion-conducting channels
- Technical strategies for reducing cell height changes during cycling using conductive scaffolds and specialized separator designs
- Subject matter expert commentary on multi-dimensional product development through combination of materials with synergetic properties and cell design innovation
Table of contents
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Introduction
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Ion-conductive Polymers – Estimate of the Current State of the Art
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Reducing the Need for Electrochemical Stability of Polymer Electrolytes
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Incorporation of Non-conducting Porous Polymer Films
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A Four-track Product Development Approach
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Cell Failure Root Causes That Cannot Easily Be Identified at Lab Scale
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Conclusion
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Document size: 3,992 words, 5 figures
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