锂离子电池技术的安全创新：2025-2030年的成长机会

Safety Innovations in Lithium-ion Battery Technology: Growth Opportunities, 2025-2030

出版日期: 2025年03月26日 | 出版商:

Frost & Sullivan | 英文 26 Pages | 商品交期: 最快1-2个工作天内

价格

简介目录

耐火材料、温度控管和故障分析的革命性进步使锂离子电池更加安全。

锂离子电池（LiB）正在经历越来越多的创新，以满足对更安全电池技术的需求。这些创新旨在降低火灾风险、提高可靠性和使用寿命，并确保多种使用案例的易用性。电池开发商和製造商正专注于开发耐火材料和可靠的温度控管系统，以降低电池故障或热失控的风险。此外，故障分析也变得越来越重要，它使用人工智慧和机器学习演算法来创建趋势和模式，并根据历史数据了解故障的原因以及如何防止故障。

回顾锂离子电池安全创新，帮助平稳过渡到更有效率的电池技术

我们将讨论锂离子电池耐火材料开发中耐火电解质、涂层和固体电解质的创新。它还回顾了整合冷却系统的温度控管系统，以及锂离子电池的诊断工具和故障分析，重点是防止电池故障。

整体情况锂离子电池安全技术专利、新想法、主要企业以及具有成长潜力的杰出公司。

锂离子电池防火材料：防火电解液的开发
锂离子电池防火材料：提高安全性的涂层材料
锂离子电池防火材料：SSE 的作用
锂离子电池的温度控管：冷却系统与热控制机制
锂离子电池故障分析：电池故障的原因
锂离子电池故障分析：故障检测的诊断工具和技术
锂离子电池故障分析：故障预防

创新生态系统

全球锂离子电池生产能力
专利情况
推动锂离子电池安全创新的主要企业

成长机会宇宙

成长机会1：先进的温度控管系统
成长机会二：先进的灭火技术
成长机会3：智慧BMS

附录

技术就绪程度 (TRL)：描述

后续步骤Next steps

成长机会的益处和影响
后续步骤Next steps
免责声明

简介目录

Product Code: DB19

Revolutionary advancements in fire-resistant materials, thermal management, and failure analysis are enhancing the safety of lithium-ion batteries.

Lithium-ion batteries (LiB) are seeing an increased number of innovations to cater to the demand of safer battery technologies. These innovations aim at decreasing the risk of fire, enhance reliability and longevity, and ensure usability for multiple use-cases. Battery developers and manufacturers are focused on creating fire-resistant materials and reliable thermal management systems to reduce the risk of battery failures and thermal runaway. Failure analysis is also gaining importance for understanding the causes of failure and methods of prevention based on historical data by creating trends and patterns using artificial intelligence and machine learning algorithms.

A review of safety innovations in lithium-ion batteries to ensure a smoother transition towards efficient battery technologies

A look at the innovations of fire-resistant electrolytes, coatings, and solid-state electrolytes in the development fire resistant materials for lithium-ion batteries. The report also reviews the thermal management systems by integrating cooling systems, and the failure analysis of in lithium-ion batteries with a focus on diagnostic tools and prevention of battery failure

A big-picture view of patents new ideas, key companies where the money's going, and standout chances to grow in the lithium-ion battery safety technology

Strategic Imperatives

Why Is It Increasingly Difficult to Grow?
The Strategic Imperative 8
The Impact of the Top 3 Strategic Imperatives on Lithium-ion Battery Technology
Growth Opportunities Fuel the Growth Pipeline Engine
Research Methodology

Growth Opportunity Analysis

Scope of Analysis
Segmentation

Growth Generator

Growth Drivers
Growth Restraints

Technology Snapshot

Fire-resistant Materials in Lithium-ion Batteries: Development of Fire-resistant Electrolytes
Fire-resistant Materials in Lithium-ion Batteries: Coating Materials for Enhanced Safety
Fire-resistant Materials in Lithium-Ion Batteries: Role of SSEs
Thermal Management in Lithium-ion Batteries: Cooling Systems and Thermal Control Mechanisms
Failure Analysis of Lithium-ion Batteries: Causes of Battery Failures
Failure Analysis of Lithium-ion Batteries: Diagnostic Tools and Techniques for Failure Detection
Failure Analysis of Lithium-ion Batteries: Prevention of Failure