Sustainable Aqueous Zn‐ion Batteries: Green Materials, Low‐Carbon Manufacturing, and Circular Economy
持続可能な水系亜鉛イオン電池:グリーン材料、低炭素製造、サーキュラーエコノミー (AI 翻訳)
Jia‐Lin Yang, Miao Du, Jun‐Ming Cao, Xing‐Long Wu
🤖 gxceed AI 要約
日本語
本レビューは、水系亜鉛イオン電池(AZIB)の持続可能性をライフサイクル全体(材料選択、製造、使用、リサイクル)にわたって評価。再生可能エネルギー貯蔵への期待と、工業化に向けた課題(デンドライト成長、カソード溶解、寿命)を指摘し、グリーン材料や低炭素製造技術の重要性を強調。
English
This review systematically evaluates the sustainability of aqueous Zn-ion batteries across their entire life cycle, highlighting green materials, low-carbon manufacturing, and circular economy principles. It identifies key challenges to industrialization and proposes pathways for achieving a cradle-to-cradle system, supporting the global energy transition.
Unofficial AI-generated summary based on the public title and abstract. Not an official translation.
📝 gxceed 編集解説 — Why this matters
日本のGX文脈において
日本は蓄電池のGX重要分野として位置づけ、サプライチェーン全体での環境負荷低減が求められている。本レビューは亜鉛系電池のライフサイクル持続可能性を包括的に示し、日本の蓄電池戦略やカーボンフットプリント規制に示唆を与える。
In the global GX context
As global battery demand surges for EVs and renewable storage, this review provides a critical sustainability assessment of a promising alternative to lithium-ion. It directly informs circular economy policies and low-carbon manufacturing standards, relevant for ISSB disclosure and transition finance frameworks.
👥 読者別の含意
🔬研究者:Highlights key research gaps in green materials and manufacturing for AZIBs, guiding future work toward true sustainability.
🏢実務担当者:Offers a life-cycle perspective for battery manufacturers to align with circular economy and low-carbon production goals.
🏛政策担当者:Supports development of standards and incentives for sustainable battery technologies, essential for climate and resource policies.
📄 Abstract(原文)
ABSTRACT Sustainable aqueous zinc‐ion batteries (AZIBs) have emerged as promising next‐generation energy storage solutions, aligning with global initiatives to mitigate climate change and promote low‐carbon transitions. Their appeal stems from the utilization of earth‐abundant materials and aqueous electrolytes, which minimize reliance on scarce metals and alleviate the safety and environmental risks associated with organic‐solvent‐based systems. This review systematically evaluates the sustainability of AZIBs throughout their entire life cycle, encompassing material selection, cell manufacturing, operational use, and end‐of‐life recycling, while providing a forward‐looking perspective on their advancement. However, critical hurdles to industrialization persist, including zinc dendrite growth, cathode dissolution, and restricted cycle life. To realize genuine sustainability, future research must prioritize green material innovations, such as bio‐based binders, functional separators, and eco‐friendly electrolytes, while implementing dry electrode fabrication and other low‐impact manufacturing techniques. Adopting a comprehensive life‐cycle approach guided by circular economy principles is vital for fostering synergistic optimization across design, production, use, and recycling, ultimately achieving a “cradle‐to‐cradle” system. Furthermore, supportive policies, cross‐sector collaboration, and international standardization are essential to bridge the gap between laboratory research and large‐scale application. Through systematic, multi‐faceted innovation, sustainable AZIBs are well‐positioned to drive the global energy transition.
🔗 Provenance — このレコードを発見したソース
- openalex https://doi.org/10.1002/ange.7123448first seen 2026-05-17 06:54:51
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