Abstract The fourth industrial revolution has accelerated the demand for electricity-powered vehicles. Structural batteries with integrated structures and batteries offer a potential solution to this requirement. In this study, electrodes used in structural batteries were manufactured using a woven carbon fabric as the current collector. During the manufacturing process, Si rubber and an autoclave were used, and the influence of the electrode slurry thickness was studied. We confirmed that the electrode with a slurry thickness of 300 μ m had a relatively higher mechanical performance when applied as the electrode for structural batteries. The electrode showed the capacities of 112 mAhg−1 and 35–36 mAhg−1 at 0.1 and 10C, respectively. Additionally, the fabricated electrode showed a stable electrochemical reaction with high Coulombic efficiency throughout the 1C galvanostatic cycling and a capacity retention of 0.82 after the 500th cycle.

中文翻译：

---

结构电池用碳纤维织物集电电极的特性

摘要 第四次工业革命加速了对电动汽车的需求。具有集成结构和电池的结构电池为这一要求提供了潜在的解决方案。在这项研究中，用于结构电池的电极是使用编织碳织物作为集电器制造的。在制造过程中，使用硅橡胶和高压釜，研究了电极浆料厚度的影响。我们证实，当用作结构电池的电极时，浆料厚度为 300 μm 的电极具有相对较高的机械性能。该电极在 0.1 和 10C 下分别显示出 112 mAhg-1 和 35-36 mAhg-1 的容量。此外，