Environmental assessment of negative electrode materials for aluminum ion batteries

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2 Development of LIBs 2.1 Basic Structure and Composition of LIBs. Lithium-ion batteries are prepared by a series of processes including the positive electrode sheet, the negative electrode sheet, and the separator tightly combined into a casing through a laminated or winding type, and then a series of processes such as injecting an organic electrolyte into a tightly sealed package.

Progresses in Sustainable Recycling Technology of Spent Lithium‐Ion ...

2 Development of LIBs 2.1 Basic Structure and Composition of LIBs. Lithium-ion batteries are prepared by a series of processes including the positive electrode sheet, the negative electrode sheet, and the separator tightly combined into a casing through a laminated or winding type, and then a series of processes such as injecting an organic electrolyte into a tightly sealed package.

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Life cycle assessment of a lithium-ion battery vehicle pack

Life cycle assessment of a lithium-ion battery vehicle pack Linda Ager-Wick Ellingsen, Guillaume Majeau-Bettez, Bhawna Singh, Akhilesh K. Srivastava, Lars Ole Valøen, Anders Hammer Strømman

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Practical assessment of the performance of aluminium battery

When the total mass of the battery (assuming a generous capacity ratio of the negative electrode to the positive electrode, N/P, of 1) is considered, the resulting capacity and cell-level energy ...

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Environmental and economic assessment of structural repair …

Environmental and economic assessment of structural repair technologies for spent lithium-ion battery cathode materials Jiao Lin1,2), Jiawei ... ive electrode of LIBs [10]. The Li deposited on the negative electrode may react with water and release hydrogen gas [11]. The remaining charge in the battery can cause fire or explosion accidents. Moreover, the grade of valuable …

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Aqueous aluminum ion system: A future of sustainable energy …

The development of vanadium-based materials as electrode materials coincides with the need for aqueous aluminum ion batteries (AAIBs) due to their advantages of multiple valence states available for energy storage and high mass capacity density. However, the disadvantages of vanadium-based materials, such as poor stability and high impedance, …

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Prospects of organic electrode materials for practical lithium batteries

There are three Li-battery configurations in which organic electrode materials could be useful (Fig. 3a).Each configuration has different requirements and the choice of material is made based on ...

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Estimating the environmental impacts of global lithium-ion battery ...

Thus, this section presents five assessments as follows: (i) total battery impacts, (ii) geographically explicit life cycle assessment (LCA) study of battery manufacturing supply chain, (iii) future impacts of battery manufacturing by decarbonizing the electricity sector to 2050, (iv) future impacts of battery manufacturing considering projected technology …

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Electrode materials for lithium-ion batteries

Here, in this mini-review, we present the recent trends in electrode materials and some new strategies of electrode fabrication for Li-ion batteries. Some promising materials with better electrochemical performance have also been represented along with the traditional electrodes, which have been modified to enhance their performance and stability.

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A review on porous negative electrodes for high performance lithium-ion ...

A typical contemporary LIB cell consists of a cathode made from a lithium-intercalated layered oxide (e.g., LiCoO 2, LiMn 2 O 4, LiFePO 4, or LiNi x Mn y Co 1−x O 2) and mostly graphite anode with an organic electrolyte (e.g., LiPF 6, LiBF 4 or LiClO 4 in an organic solvent). Lithium ions move spontaneously through the electrolyte from the negative to the …

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Environmental Screening of Electrode Materials for a …

Recently, rechargeable aluminum batteries have received much attention due to their low cost, easy operation, and high safety. As the research into rechargeable aluminum batteries with a room-temperature ionic liquid …

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Electrochemically induced amorphous-to-rock-salt phase ...

Intercalation-type metal oxides are promising negative electrode materials for safe rechargeable lithium-ion batteries due to the reduced risk of Li plating at low voltages. Nevertheless, their ...

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A Review of Positive Electrode Materials for Lithium-Ion Batteries

In that case, it has been found that the magnesium ion, the aluminum ion, the nickel ion, and the cobalt ion are preferable for doping metal ions. Figure 2.9 shows the cyclicity of the magnesium doping spinel cathode for metallic lithium anode at 60°C.45 It is understood that the cyclicity of the oxygen stoichiometric spinels is excellent. Fig. 2.9. Cycling performance of Mg-doped spinels …

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Environmental Screening of Electrode Materials for a …

Environmental Screening of Electrode Materials for a Rechargeable Aluminum Battery with an AlCl 3 /EMIMCl Electrolyte. by. Linda Ager-Wick Ellingsen. 1,*, Alex Holland. 2, Jean-Francois Drillet. 3, Willi …

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Research Progress and Modification Measures of Anode and …

As for the cathode, because the radius of sodium ion is larger than that of lithium ion, it is difficult for sodium ion to be embedded/removed from the layered cathode and anode materials, so the energy density of sodium ion cathode materials is insufficient. 63, 64 At the same time, in order to make sodium ions more easily embedded/removed, the …

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Electrode Materials for Sodium-Ion Batteries: …

Abstract Sodium-ion batteries have been emerging as attractive technologies for large-scale electrical energy storage and conversion, owing to the natural abundance and low cost of sodium resources. However, the …

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Modified Al negative electrode for stable high-capacity Al—Te batteries ...

Metal aluminum batteries (MABs) are considered potential large-scale energy storage devices because of their high energy density, resource abundance, low cost, safety, and environmental friendliness. Given their high electrical conductivity, high theoretical specific capacity, and high discharge potential, Te is considered a potential positive electrode material …

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A review of covalent organic framework electrode materials for ...

DOI: 10.1016/S1872-5805(21)60001-X REVIEW A review of covalent organic framework electrode materials for rechargeable metal-ion batteries Shu-mao Zeng1,2,â€, Xiao-xiong Huang1,2,â€, Ying-jie Ma1,*, Lin-jie Zhi1,2,* 1CAS Key Laboratory of Nanosystem and Hierarchical Fabrication, CAS Center for Excellence in Nanoscience, National Center for …

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Recent developments on electrode materials and electrolytes for ...

The rechargeable high-valent aluminium-ion battery (AIB) is flagged as a low cost high energy system to satisfy societal needs. In AIB, metallic aluminium is used as the …

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Perspective: Design of cathode materials for sustainable sodium-ion ...

Manufacturing sustainable sodium ion batteries with high energy density and cyclability requires a uniquely tailored technology and a close attention to the economical and environmental factors. In this work, we summarized the most important design metrics in sodium ion batteries with the emphasis on cathode materials and outlined a transparent data …

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A comprehensive cradle-to-grave life cycle assessment of three ...

Three stationary Li-ion batteries are assessed here: a prototype lithium iron phosphate/graphite (LFP/G) battery and two alternatives (with nickel manganese cobalt (NMC) positive electrodes and graphite (G) or lithium titanate oxide (LTO) negative electrodes). Midpoint to endpoint environmental indicators are estimated and compared using the life …

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Research progress on carbon materials as negative electrodes in …

2 CARBON MATERIALS AS NEGATIVE ELECTRODES FOR ALKALI-METAL ION BATTERIES. Carbonaceous materials, 49, 50 metal oxides, 51-54 and alloys 55, 56 have been used as negative electrodes for SIBs and PIBs. However, metal oxides and alloy electrodes tend to swell during electrochemical reactions, leading to poor cycle durability. Among all negative ...

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Aluminum negative electrode in lithium ion batteries

In search of new non-carbonaceous anode materials for lithium ion batteries, aluminum has been tested as a possible candidate. In order to examine the intrinsic …

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Environmental Impact Assessment of Na

Among the different available possibilities, sodium-ion batteries (NIBs) are of special interest given the redox potential of E (Na+/Na) = −2.71 V of sodium, the natural abundance of sodium (2.36% in Earth''s crust), its low price of 0.15 $ kg −1, and the possibility of using aluminum current collectors (instead of the copper/aluminum required for LIBs).

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Negative electrodes for Na-ion batteries

Research interest in Na-ion batteries has increased rapidly because of the environmental friendliness of sodium compared to lithium. Throughout this Perspective paper, we report and review recent scientific advances in the field of negative electrode materials used for Na-ion batteries. This paper s …

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Environmental Screening of Electrode Materials for a …

The purpose of this study was to evaluate and compare the relative environmental performance of electrode material candidates for rechargeable aluminum batteries with an AlCl₃/EMIMCl...

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Electrode Materials for Lithium Ion Batteries

The development of Li ion devices began with work on lithium metal batteries and the discovery of intercalation positive electrodes such as TiS 2 (Product No. 333492) in the 1970s. 2,3 This was followed soon after by Goodenough''s discovery of the layered oxide, LiCoO 2, 4 and discovery of an electrolyte that allowed reversible cycling of a graphite anode. 5 In 1991, Sony …

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Environmental Impact Assessment in the Entire Life Cycle of Lithium-Ion ...

The growing demand for lithium-ion batteries (LIBs) in smartphones, electric vehicles (EVs), and other energy storage devices should be correlated with their environmental impacts from production to usage and recycling. As the use of LIBs grows, so does the number of waste LIBs, demanding a recycling procedure as a sustainable resource and safer for the …

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Life cycle assessment of sodium-ion batteries | Request PDF

In fact, the current state-of-the-art (presented in this study) shows that life cycle assessment (LCA) studies related to the production processes of electrode materials for Na-ion batteries are ...

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Surface Properties‐Performance Relationship of …

Rechargeable aluminum batteries (RABs) using aluminum (Al) metal as the negative electrode material offers a high theoretical capacity due to the multivalent ions transfer and have been considered as one of the …

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Recent Advances in Covalent Organic Framework …

As with most of the 2D COFs reported so far, the design and synthesis of some building units with 3D configurations can lead to the emergence of 3D COF materials with larger specific surface areas. 43, 44 …

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Recent Advances in Metal–Organic Framework Electrode Materials …

This study presents a collective review of the latest developments in the application of metal–organic frameworks (MOFs) in various metal-ion batteries (MIBs), including lithium-ion batteries (LIBs) and multivalent-ion batteries, from 2015 to 2023. First, the types of MOFs, standard fabrication methods, and electrochemical properties required for building …

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Negative electrode materials for high-energy density Li

Currently available cathode materials for Li-ion batteries, such as LiNi 1/3 Mn 1/3 Co 1/3 O 2 (NMC) or LiNi 0.8 Co 0.8 Al 0.05 O 2 (NCA) can provide practical specific capacity values (C sp) of 170–200 mAh g −1, which produces commercial Li-ion full cells of about 630 and 740Wh/kg (with respect to cathodic material) [15].

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SnSe nano-particles as advanced positive electrode materials for ...

However, due to the extremely high theoretical specific capacity of aluminum negative electrode, choosing a positive electrode material with a higher specific capacity is one of the key factors for obtaining high-performance aluminum ion batteries. Based on the AlCl 3 /[EMIm]Cl ionic liquid electrolyte, a lot of research has been conducted on the positive …

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Toward Stable Al Negative Electrodes of …

Al metal is the best option as the negative electrode, while its issues such as dendrite growth and corrosion accompanying hydrogen evolution in ionic liquid electrolyte have been seriously overlooked. Understanding the …

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Aluminum foil negative electrodes with multiphase microstructure …

When a 30-μm-thick Al94.5In5.5 negative electrode is combined with a Li6PS5Cl solid-state electrolyte and a LiNi0.6Mn0.2Co0.2O2-based positive electrode, lab-scale cells deliver …

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Emerging organic electrode materials for sustainable batteries

Organic electrode materials (OEMs) possess low discharge potentials and charge‒discharge rates, making them suitable for use as affordable and eco-friendly rechargeable energy storage systems ...

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Unveiling Organic Electrode Materials in Aqueous Zinc-Ion Batteries ...

Aqueous zinc-ion batteries (AZIBs) are one of the most compelling alternatives of lithium-ion batteries due to their inherent safety and economics viability. In response to the growing demand for green and sustainable energy storage solutions, organic electrodes with the scalability from inexpensive starting materials and potential for biodegradation after use have …

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On the Use of Ti3C2Tx MXene as a Negative Electrode Material …

The pursuit of new and better battery materials has given rise to numerous studies of the possibilities to use two-dimensional negative electrode materials, such as MXenes, in lithium-ion batteries. Nevertheless, both the origin of the capacity and the reasons for significant variations in the capacity seen for different MXene electrodes still remain unclear, …

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Surface-Coating Strategies of Si-Negative Electrode Materials in …

Silicon (Si) is recognized as a promising candidate for next-generation lithium-ion batteries (LIBs) owing to its high theoretical specific capacity (~4200 mAh g−1), low working potential (<0.4 V vs. Li/Li+), and abundant reserves. However, several challenges, such as severe volumetric changes (>300%) during lithiation/delithiation, unstable solid–electrolyte interphase …

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