Journal ArticleDOI
Processes and technologies for the recycling and recovery of spent lithium-ion batteries
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In this article, the authors carried out a state-of-the-art study on the technologies used in the recycling and regeneration of industrial lithium-ion batteries, such as cobalt, nickel and copper, in a way which is both profitable and environmentally friendly.Abstract:
LiBs pose a very specific threat, given that they contain a high percentage of dangerous heavy metals. From the 4000 t of used lithium-ion batteries collected in 2005, 1100 t of heavy metals and more than 200 t of toxic electrolytes were generated. This is why a lot of attention has been paid to the development of the technology necessary to recover and recycle LiBs in order not only to protect the environment but also to conserve resources. The recovery of major spent cell components is beneficial both in terms of environmental protection and also for the provision of raw materials. The authors of this article carried out a state of the art on the technologies used in the recycling and regeneration of industrial lithium-ion batteries. The main objective of such technologies is to enable the recycling of valuable elements present in the batteries, such as cobalt, nickel and copper, in a way which is both profitable and environmentally friendly. All the technologies used in the manufacture of lithium-ion batteries are constantly changing makes subsequent changes to the research into recycling and recovery technologies necessary. This does not mean merely finding ways to recover the precious metals, but also to recover other materials which may harm the environment, in order to dispose of them appropriately. The discussion of this research clearly reflects that: • There are very few studies on the recovery of metals such as graphite, the electrolyte in spent LIBs, and it is our belief that more research is needed in this area. • The research into the application of microorganisms in the used lithium batteries is few and far between. • It is important to find ways to recover the precious metals and to recover other materials which may harm the environment, in order to dispose of them appropriately.read more
Citations
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Journal ArticleDOI
Ammonia for power
Agustin Valera-Medina,H Xiao,H Xiao,Martin Owen-Jones,William I. F. David,William I. F. David,Philip John Bowen +6 more
TL;DR: In this article, the authors highlight previous influential studies and ongoing research to use this chemical as a viable energy vector for power applications, emphasizing the challenges that each of the reviewed technologies faces before implementation and commercial deployment is achieved at a larger scale.
Journal ArticleDOI
Toward sustainable and systematic recycling of spent rechargeable batteries
TL;DR: This work presents state-of-the-art fundamental research and industrial technologies related to battery recycling, with a special focus on lithium-ion battery recycling.
Journal ArticleDOI
Recycling of lithium-ion batteries: Recent advances and perspectives
TL;DR: A review of recent advances in recycling technologies of spent lithium-ion batteries, including the development of recycling processes, the products obtained from recycling, and the effects of recycling on environmental burdens are also highlighted.
Journal ArticleDOI
State-of-the-Art and Energy Management System of Lithium-Ion Batteries in Electric Vehicle Applications: Issues and Recommendations
TL;DR: This review will hopefully lead to increasing efforts toward the development of an advanced Li-ion battery in terms of economics, longevity, specific power, energy density, safety, and performance in vehicle applications.
Journal ArticleDOI
A Mini-Review on Metal Recycling from Spent Lithium Ion Batteries
TL;DR: A review of the state-of-the-art processes for metal recycling from spent lithium ion batteries can be found in this article, where the authors introduce the structure of a battery and summarize all available technologies that are used in different recovery processes.
References
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Journal ArticleDOI
Challenges in the development of advanced Li-ion batteries: a review
TL;DR: Li-ion battery technology has become very important in recent years as these batteries show great promise as power sources that can lead us to the electric vehicle (EV) revolution as mentioned in this paper.
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Li-ion battery materials: present and future
TL;DR: In this article, a review of the key technological developments and scientific challenges for a broad range of Li-ion battery electrodes is presented, and the potential/capacity plots are used to compare many families of suitable materials.
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Lithium batteries: Status, prospects and future
Bruno Scrosati,Jürgen Garche +1 more
TL;DR: In this article, the authors present the present status of lithium battery technology, then focus on its near future development and finally examine important new directions aimed at achieving quantum jumps in energy and power content.
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Bioleaching review part A: progress in bioleaching: fundamentals and mechanisms of bacterial metal sulfide oxidation.
TL;DR: In this paper, the authors show that the dominance of At. ferrooxidans or Leptospirillum in mesophilic leaching habitats is highly likely to result from differences in their biochemical iron(II) oxidation pathways, especially the involvement of rusticyanin.
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Materials Challenges and Opportunities of Lithium Ion Batteries
TL;DR: In this paper, the authors focus on the challenges and prospects associated with the electrode materials and the approaches to overcome them, specifically the issues associated with high-voltage and high-capacity cathodes as well as high capacity anodes.