持续性
稀缺
电池(电)
资源(消歧)
资源稀缺
新兴技术
风险分析(工程)
化石燃料
环境经济学
自然资源
计算机科学
生产(经济)
工程类
可持续能源
可持续发展
能量(信号处理)
业务
自然资源经济学
高效能源利用
资源枯竭
新兴市场
能源
可再生能源
资源效率
范式转换
作者
S. Kulkarni,Keru Duan,G. Pang,Ahmad Bhatti
标识
DOI:10.1016/j.esr.2026.102064
摘要
This paper aims to present a timely review of recent developments and perspectives on Lithium-Ion Battery (LIB) technologies regarding sustainable development, electrochemical efficiency, and machine learning models for forecasting the availability of services such as vehicle-to-home. The paper argues that the world is increasingly demanding sustainable, reliable energy sources because current sources are unstable and fossil-fuel-dependent. Research shows that 85 % or more of the world's energy comes from non-renewable sources, including natural gas, coal, and oil, underscoring the world's persistent reliance on fossil fuels. This study conducts a literature review on recent advances in sustainable LIB development, emphasising emerging chemical technologies, novel energy materials, and innovations in battery manufacturing. Findings indicate a growing demand for LIBs driven by environmental sustainability goals. However, LIB production was constrained by resource scarcity and rising manufacturing costs. To address these issues, researchers are exploring next-generation chemistries, improved material design, and enhanced recycling processes. Additionally, advancements in machine learning and battery-material characterisation are essential to meet evolving consumer demands, including for vehicle-to-home applications. • Reviews recent lithium-ion batteries advances with a focus on sustainability and electrochemical efficiency. • Highlights the global shift toward sustainable energy amid the limits of fossil fuel dependence. • Identifies production challenges, such as material scarcity and rising costs, calling for innovation. • Emphasizes advanced recycling and machine learning for improving energy services like vehicle-to-home.
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