Micro-perforation of the porous transport layer for proton exchange membrane water electrolyzer cells using ultrashort laser pulses

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Abstract

The porous transport layers (PTL) are an essential compound of proton exchange membrane electrolyzer cells (PEMEC), widely seen as the most promising solution to produce large amounts of hydrogen needed to replace fossil fuels in the near future. To increase the efficiency of the PEMEC, thin titanium sheets with high porosity should be used as the PTL. This study examined the structuring of thin titanium sheets using ultrashort-pulsed laser radiation with an infrared wavelength. Systematic experiments were conducted to investigate the influence of the pulse repetition rate (PRR) on the structure quality. The resulting holes drilled were analyzed using a laser scanning microscope. Preliminary results showed that laser pulses with a duration of 500 femtoseconds allow the production of thin titanium sheets with a porosity of 63 %, which can pave the way toward PEMEC with significantly increased efficiency.

利用超短激光脉冲对质子交换膜水电解槽的多孔传输层进行微穿孔
多孔传输层(PTL)是质子交换膜电解槽(PEMEC)的重要组成部分,被广泛认为是在不久的将来生产大量氢气以取代化石燃料的最有前途的解决方案。为提高质子交换膜电解池的效率,应使用高孔隙率的薄钛片作为 PTL。本研究利用红外波长的超短脉冲激光辐射对薄钛板进行了结构化处理。通过系统实验研究了脉冲重复率(PRR)对结构质量的影响。使用激光扫描显微镜对钻出的孔进行了分析。初步结果表明,持续时间为 500 飞秒的激光脉冲可产生孔隙率为 63% 的钛薄片,这为大幅提高 PEMEC 的效率铺平了道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
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