Podcast thumbnail for EKL Battery Brew

EKL Battery Brew

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by EKL

90 episodes
Updated Daily
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Podcast Overview

EKL Battery Brew 是一档融合“电池科技”(Battery)与“精酿生活”(Brew)的独特播客节目。以轻松幽默的风格,探讨电动时代下的前沿科技(如锂电池、新能源汽车、储能系统、可再生能源),同时“酿造”生活灵感——从装备评测,到日常充电习惯优化、可持续生活方式分享。节目像一杯精心酿制的咖啡:前半段“提神”聊硬核电池知识,后半段“回甘”分享生活趣事,让听众在学习科技的同时,感受到满满的能量补充。

Language

🇨🇳

Publishing Since

12/26/2025

1 verified contact email on file for EKL Battery Brew

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Recent Episodes

Episode thumbnail for Battery Brew 89|通过横向锂通量抑制锂金属固态电池中的枝晶

June 1, 2026

Battery Brew 89|通过横向锂通量抑制锂金属固态电池中的枝晶

<p>播客概述:欢迎收听本期节目!</p><p>关键内容提要:今天我们要为您极其详尽地解读一篇刚刚在 <strong>2026年</strong> 发表在能源与环境科学顶级期刊 <strong>《Energy &amp; Environmental Science》</strong> 上的研究成果。这项研究由 <strong>苏黎世联邦理工学院(ETH Zürich)、瑞士联邦材料科学与技术实验室(Empa)以及多伦多大学的 Maksym V. Kovalenko 教授、Kostiantyn V. Kravchyk 博士,联合第一作者 Huanyu Zhang、Faruk Okur 等顶尖学者</strong> 共同完成。论文的题目是《通过横向锂通量抑制锂金属固态电池中的枝晶》(Suppressing Dendrites via Lateral Lithium Flux in Li Metal Solid-State Batteries)。<strong>为什么在固态电池中加入一层薄薄的界面层,就能奇迹般地消除致命的锂枝晶?</strong> 科学家们首次从“横向微观电流”的视角,证实了一个能够瞬间“抚平”电池内部电流不均匀的自救机制。</p><p><br></p><p></p><p>Reference: Suppressing Dendrites via Lateral Lithium Flux in Li Metal Solid-State Batteries</p><p>感谢收听!继续充电,也继续酿造好生活!#EKLBatteryBrew更多电池前沿论文&amp;解读,探索X账号:@[EKL_Batteries](x.com)</p><br><a href="https://www.xiaoyuzhoufm.com/episode/6a1d6b257460cabdeb595cfc?utm_source=rss&as=cHQ9MTIyNjE5MjQ3JmN0PWFwcGxlcG9kY2FzdF9zaG93bm90ZXMmbXQ9OA%3D%3D">前往小宇宙评论区与主播互动</a>

Episode thumbnail for Battery Brew 88|受蜘蛛牵引丝启发的3D打印可持续锌离子电池:实现超高稳定性

June 1, 2026

Battery Brew 88|受蜘蛛牵引丝启发的3D打印可持续锌离子电池:实现超高稳定性

<p>播客概述:欢迎收听本期节目!</p><p>关键内容提要:欢迎收听本期《前沿科技深度解析》。今天我们要为您极其详尽地解读一篇 <strong>2026年</strong> 发表在能源与环境科学领域顶尖学术期刊 <strong>《Energy &amp; Environmental Science》</strong> 上。研究由 <strong>香港理工大学的徐宾刚教授团队、德克萨斯大学奥斯汀分校的余桂华教授团队,联合湘潭大学、四川农业大学等多家顶尖机构</strong> 共同完成。论文的题目极具想象力:《受蜘蛛牵引丝启发的3D打印可持续锌离子电池:实现超高稳定性》(Spider Dragline Silk-Inspired 3D Printed Sustainable Zinc Ion Battery with Ultrahigh Stability)。不仅从我们常吃的“海带废料”中提取材料,更从“蜘蛛丝”中汲取灵感,再结合极其前沿的 <strong>3D 打印技术</strong>,造出了一块既能极速充放电、又能完全回收的“绿色超级锌电池”。</p><p></p><p>Reference: Spider Dragline Silk-Inspired 3D Printed Sustainable Zinc Ion Battery with Ultrahigh Stability</p><p>感谢收听!继续充电,也继续酿造好生活!#EKLBatteryBrew更多电池前沿论文&amp;解读,探索X账号:@[EKL_Batteries](x.com)</p><br><a href="https://www.xiaoyuzhoufm.com/episode/6a1d6b1e7460cabdeb595cf6?utm_source=rss&as=cHQ9MTIyNjE5MjQ3JmN0PWFwcGxlcG9kY2FzdF9zaG93bm90ZXMmbXQ9OA%3D%3D">前往小宇宙评论区与主播互动</a>

Episode thumbnail for Battery Brew 90|识别化学官能团对离子液体电导率的影响

June 1, 2026

Battery Brew 90|识别化学官能团对离子液体电导率的影响

<p>播客概述:欢迎收听本期节目!</p><p>关键内容提要:今天我们要为您极其详尽地解读一篇 <strong>2026年</strong> 发表在化学领域顶尖学术期刊 <strong>《化学科学》(Chemical Science)</strong> 上的硬核数据驱动大作。</p><p>这项研究由 <strong>美国威斯康星大学麦迪逊分校(UW-Madison)的 Rose K. Cersonsky 教授团队,联合 J. E. Umaña、Matthew A. Gebbie 等多位顶尖学者</strong> 共同完成。论文的题目是《识别化学官能团对离子液体电导率的影响》(Identifying the Impact of Chemical Functional Groups on Ionic Liquid Conductivity)。</p><p>这篇文章抛弃了传统的通用化学描述符,专门为离子液体量身定制了一套“懂得看电荷与共振”的分子语言,彻底拆解了到底是什么决定了离子液体的导电速度。</p><p></p><p>Reference: Identifying the Impact of Chemical Functional Groups on Ionic Liquid Conductivity</p><p>感谢收听!继续充电,也继续酿造好生活!#EKLBatteryBrew更多电池前沿论文&amp;解读,探索X账号:@[EKL_Batteries](x.com)</p><br><a href="https://www.xiaoyuzhoufm.com/episode/6a1d6b39ac7bdb080c3441a4?utm_source=rss&as=cHQ9MTIyNjE5MjQ3JmN0PWFwcGxlcG9kY2FzdF9zaG93bm90ZXMmbXQ9OA%3D%3D">前往小宇宙评论区与主播互动</a>

90 total episodes available

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Frequently asked questions

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What is EKL Battery Brew?

EKL Battery Brew 是一档融合“电池科技”(Battery)与“精酿生活”(Brew)的独特播客节目。以轻松幽默的风格,探讨电动时代下的前沿科技(如锂电池、新能源汽车、储能系统、可再生能源),同时“酿造”生活灵感——从装备评测,到日常充电习惯优化、可持续生活方式分享。节目像一杯精心酿制的咖啡:前半段“提神”聊硬核电池知识,后半段“回甘”分享生活趣事,让听众在学习科技的同时,感受到满满的能量补充。

How often does this podcast release new episodes?

This podcast updates daily.

Where can I listen to this podcast?

This podcast is available on 4 platforms including Apple Podcasts, Spotify, and more. You can also use the RSS feed directly.

Does this podcast accept guests?

No, this podcast does not typically feature guests.

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