Opportunities, Challenges and Strategies for Developing Electric Vehicle Energy Storage Systems under the Carbon Neutrality Goal

Liu, Xinglong; Zhao, Fuquan; Hao, Han; Liu, Zongwei

doi:10.3390/wevj14070170

Cited by 10 publications

(6 citation statements)

References 36 publications

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“…Creating a business ecosystem centered on V2G operating platforms and formulating top-level strategic plans across industries and organizations are essential. Additionally, developing an electricity-trading mechanism and promoting the implementation of technical standards related to EV energy storage are crucial (Liu et al, 2023).…”

Section: The Role Of Standards Regulations and Policy In Battery Tech...mentioning

confidence: 99%

Next-generation batteries and U.S. energy storage: A comprehensive review: Scrutinizing advancements in battery technology, their role in renewable energy, and grid stability

Ahmad Hamdan,

Cosmas Dominic Daudu,

Adefunke Fabuyide

et al. 2024

World J. Adv. Res. Rev.

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This study provides a comprehensive review of next-generation battery technologies and their critical role in U.S. energy storage, particularly focusing on renewable energy integration and grid stability. The main objectives were to assess the current advancements in battery technology, evaluate their economic viability and environmental impacts, and understand the implications for stakeholders in renewable energy and grid management. Employing a systematic literature review and content analysis, the study analyzed data from peer-reviewed articles, industry reports, and government publications published between 2014 and 2024. Key findings indicate significant progress in battery efficiency, lifespan, and safety, primarily driven by innovations in lithium-ion and sodium-ion batteries. These advancements are pivotal in enhancing energy storage capabilities and facilitating the integration of renewable energy sources into the grid. However, challenges such as material scarcity, environmental concerns, and the need for improved recycling methods were identified. The study also highlights the importance of regulatory frameworks and policies in shaping the development and deployment of these technologies. Strategic recommendations for industry leaders and policymakers include focusing on sustainable material sourcing, investing in alternative battery chemistries, and implementing supportive regulatory frameworks. In conclusion, the study underscores the transformative potential of advanced battery technologies in achieving a sustainable energy future, suggesting future research directions in material development, battery chemistries, and integration with smart grid technologies.

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Section: The Role Of Standards Regulations and Policy In Battery Tech...mentioning

confidence: 99%

Next-generation batteries and U.S. energy storage: A comprehensive review: Scrutinizing advancements in battery technology, their role in renewable energy, and grid stability

Ahmad Hamdan,

Cosmas Dominic Daudu,

Adefunke Fabuyide

et al. 2024

World J. Adv. Res. Rev.

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“…However, the continuous depletion of fossil fuels has led to increased greenhouse gas emissions, demanding immediate sustainable energy cycling. Currently, the implementation of a dual carbon strategy has become a major approach to address this challenge [3][4][5]. Gradually replacing conventional fuel vehicles with electric vehicles is a pivotal solution [6][7][8][9].…”

Section: Introductionmentioning

confidence: 99%

Multi-Scale Heterogeneity of Electrode Reaction for 18650-Type Lithium-Ion Batteries during Initial Charging Process

Meng,

Ma,

2024

Batteries

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The improvement of fast-charging capabilities for lithium-ion batteries significantly influences the widespread application of electric vehicles. Fast-charging performance depends not only on materials but also on the battery’s inherent structure and the heterogeneity of the electrode reaction. Herein, we utilized advanced imaging techniques to explore how the internal structure of cylindrical batteries impacts macroscopic electrochemical performance. Our research unveiled the natural 3D structural non-uniformity of the electrodes, causing heterogeneity of electrode reaction. This non-uniformity of reaction exhibited a macro–meso–micro-scale feature in four dimensions: the exterior versus the interior of the electrode, the middle versus the sides of the cell, the inside versus the outside of the cell, and the surface versus the body of the electrode. Furthermore, the single-coated side of the anode demonstrated notably faster reaction than the double-coated sides, leading to the deposition of island-like lithium during fast charging. These discoveries offer novel insights into multi-scale fast-charging mechanisms for commercial batteries, inspiring innovative approaches to battery design.

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“…Electric vehicles (EVs) are crucial for achieving carbon neutrality as they significantly reduce our carbon footprint and dependence on fossil fuels in transportation. − The EV industry has revolutionized over the past two decades, primarily due to the improved energy density of lithium-ion batteries (LIBs). , However, the long-term development of LIBs is restricted by the lower volumetric energy density, poor fast charging performance, and severe safety concerns. − To meet the burgeoning demands for high-energy and power densities, batteries utilizing different kinds of charge carriers (Na + , K + , Mg 2+ , Zn 2+ , Al 3+ , F – , Cl – , etc .) have been proposed. − Among them, fluoride-ion batteries (FIBs), associated with the migration of monovalent fluoride ions with relatively small ionic radii, are expected to show superior potential for solid-state battery application. ,− By using the multielectron reaction of metal/metal fluorides (M/MF x , M = Ni, Co, Cu, Bi, etc .…”

Section: Introductionmentioning

confidence: 99%

High-Performance Copper/Copper Oxide-Based Cathode Prepared by a Facile Ball-Milling Method for All-Solid-State Fluoride-Ion Batteries

Cao,

Yamamoto,

Zhang

et al. 2023

ACS Appl. Energy Mater.

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Benefiting from the high theoretical volumetric energy density of the metal/metal fluoride (M/MF x ) cathodes, all-solid-state fluoride-ion batteries (FIBs) are anticipated to be one of the next-generation energy storage devices. However, M/MF x electrodes have low rate capability due to the large diffusion overpotential of fluoride ions because the reaction proceeds by a two-phase reaction mechanism between the metal M phase and the metal fluoride MF x phase, which has significantly different lattice constants. To address this problem, uniformly distributed nanoparticles should be designed to shorten the diffusion pathway. Herein, we report a facile ball-milling method for preparing Cu-based cathode materials. Our findings reveal that as the ball-milling rotation speed increases, there is a significant decrease in the crystallite size of the solid electrolyte and a transformation of Cu oxides into metallic Cu, accompanied by an increase in the crystallite size. Among the as-prepared cathode composites, a fine mixture of metallic Cu and Cu oxides with intermediate rotation speed (300 rpm) exhibits superior electrochemical performance, with a reversible capacity of 400 mAh gCu2O –1 after 20 cycles. Furthermore, it exhibits excellent rate capability by combining the high capacity of Cu with the satisfactory rate performance of Cu2O, achieving a capacity of 174 mAh gCu2O –1 at a current density of 550 mA gCu2O –1, which is currently the highest reported for Cu-based cathode materials in FIBs. A charge compensation mechanism involving Cu0/Cu2+ and Cu+/Cu2+ redox reactions has been confirmed by electrochemical methods, X-ray diffraction (XRD), X-ray absorption spectroscopy (XAS), and scanning transmission electron microscopy (STEM) measurements. The dominant factors affecting the impedance spectra of the as-prepared composites were also been investigated. It is believed that the cathode composites prepared by a facile ball-milling method in this work will lead to a significant step in the application of all-solid-state FIBs.

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Opportunities, Challenges and Strategies for Developing Electric Vehicle Energy Storage Systems under the Carbon Neutrality Goal

Cited by 10 publications

References 36 publications

Next-generation batteries and U.S. energy storage: A comprehensive review: Scrutinizing advancements in battery technology, their role in renewable energy, and grid stability

Next-generation batteries and U.S. energy storage: A comprehensive review: Scrutinizing advancements in battery technology, their role in renewable energy, and grid stability

Multi-Scale Heterogeneity of Electrode Reaction for 18650-Type Lithium-Ion Batteries during Initial Charging Process

High-Performance Copper/Copper Oxide-Based Cathode Prepared by a Facile Ball-Milling Method for All-Solid-State Fluoride-Ion Batteries

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