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What are structural batteries?
This type of batteries is commonly referred to as “structural batteries”. Two general methods have been explored to develop structural batteries: (1) integrating batteries with light and strong external reinforcements, and (2) introducing multifunctional materials as battery components to make energy storage devices themselves structurally robust.
What is the practical application of rigid structural batteries?
The practical application of rigid structural batteries relies on addressing two critical core challenges: achieving structural and electrochemical performance that aligns with the multifunctional efficiency design principle (i.e., η s + η d> 1) through advanced materials, technological development, and a rational battery design.
Can a rigid structural battery replace the structural components?
Assuming that the rigid structural battery meets the specifications of the structural components, it can replace the remaining 80 % of the structural components. This would effectively increase the available energy of the original system by eightfold.
How to achieve high-performance rigid structural batteries using single-function materials?
Therefore, to achieve high-performance rigid structural batteries using single-function materials, it is necessary to address bottlenecks in key materials, packaging processes, battery design, and other aspects. 4.2. Constructing rigid structural batteries using multifunctional materials
Can multifunctional materials be used to build rigid structural batteries?
Looking toward long-term development, achieving mechanical/electrochemical decoupling at the material or even atomic scale, i.e., utilizing multifunctional materials to build rigid structural batteries, holds the potential for groundbreaking performance enhancements. 4.1. Constructing rigid structural batteries using single-function materials