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Добірка наукової літератури з теми "Batteries solides"

Автор: Grafiati

Опубліковано: 19 квітня 2025

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Статті в журналах з теми "Batteries solides"

1

Alcaraz, Lorena, Carlos Díaz-Guerra, Joaquín Calbet, María Luisa López, and Félix A. López. "Obtaining and Characterization of Highly Crystalline Recycled Graphites from Different Types of Spent Batteries." Materials 15, no. 9 (2022): 3246. http://dx.doi.org/10.3390/ma15093246.

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Анотація:

Spent batteries recycling is an important way to obtain low-cost graphite. Nevertheless, the obtaining of crystalline graphite with a rather low density of defects is required for many applications. In the present work, high-quality graphites have been obtained from different kinds of spent batteries. Black masses from spent alkaline batteries (batteries black masses, BBM), and lithium-ion batteries from smartphones (smartphone black masses, SBM) and electric and/or hybrid vehicles (lithium-ion black masses, LBM) were used as starting materials. A hydrometallurgical process was then used to ob

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2

Mamatkarimov, O., B. Uktamaliyev, and A. Abdukarimov. "PREPARATION OF POLY (METHYL METHACRYLATE)-BASED POLYMER ELECTROLYTES FOR SOLID-STATE FOR Mg-ION BATTERIES." SEMOCONDUCTOR PHYSICS AND MICROELECTRONICS 3, no. 4 (2021): 16–19. http://dx.doi.org/10.37681/2181-1652-019-x-2021-4-2.

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Анотація:

It is known that the new metal-based solid polymer electrolyte batteries are characterized by high energy and power density, low cost, simplicity of manufacturing technology and long-term non-discharge. Therefore, the technology of their preparation is considered in this study

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3

Maier, Joachim, and Ute Lauer. "Ionic Contact Equilibria in Solids-Implications for Batteries and Sensors." Berichte der Bunsengesellschaft für physikalische Chemie 94, no. 9 (1990): 973–78. http://dx.doi.org/10.1002/bbpc.19900940918.

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4

Kanno, Ryoji, Satoshi Hori, Keisuke Shimizu, and Kazuhiro HIkima. "(Invited) Development and New Perspectives in Lithium Ion Conductors and Solid-State Batteries." ECS Meeting Abstracts MA2024-02, no. 8 (2024): 1085. https://doi.org/10.1149/ma2024-0281085mtgabs.

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Анотація:

All-solid-state batteries, which consist entirely of solid components, are being developed as the energy storage devices for the next generation. In the presentation, after showing the history, current status, and challenges of solid-state battery development, our research on the solid-state electrolyte exploration and solid-state battery development will be presented. We investigated the solid electrolytes to improve the performance of solid-state batteries, and the battery reactions using model-type solid-state batteries. We have explored new solid electrolytes and found a material Li10GeP2S

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5

Alcántara, Ricardo, Carlos Pérez-Vicente, Pedro Lavela, José L. Tirado, Alejandro Medina, and Radostina Stoyanova. "Review and New Perspectives on Non-Layered Manganese Compounds as Electrode Material for Sodium-Ion Batteries." Materials 16, no. 21 (2023): 6970. http://dx.doi.org/10.3390/ma16216970.

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After more than 30 years of delay compared to lithium-ion batteries, sodium analogs are now emerging in the market. This is a result of the concerns regarding sustainability and production costs of the former, as well as issues related to safety and toxicity. Electrode materials for the new sodium-ion batteries may contain available and sustainable elements such as sodium itself, as well as iron or manganese, while eliminating the common cobalt cathode compounds and copper anode current collectors for lithium-ion batteries. The multiple oxidation states, abundance, and availability of manganes

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6

Mauger, Julien, Paolella, Armand, and Zaghib. "Building Better Batteries in the Solid State: A Review." Materials 12, no. 23 (2019): 3892. http://dx.doi.org/10.3390/ma12233892.

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Анотація:

Most of the current commercialized lithium batteries employ liquid electrolytes, despite their vulnerability to battery fire hazards, because they avoid the formation of dendrites on the anode side, which is commonly encountered in solid-state batteries. In a review two years ago, we focused on the challenges and issues facing lithium metal for solid-state rechargeable batteries, pointed to the progress made in addressing this drawback, and concluded that a situation could be envisioned where solid-state batteries would again win over liquid batteries for different applications in the near fut

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7

Cheong, Do Sol, and Hyun-Kon Song. "Organic Ice Electrolytes for Lithium Batteries." ECS Meeting Abstracts MA2024-02, no. 8 (2024): 1100. https://doi.org/10.1149/ma2024-0281100mtgabs.

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Анотація:

Solid-state ionic conductors are being actively developed for batteries employing lithium electrochemistry. Lithium battery cells based on solid electrolytes are believed to be free from concerns found in conventional lithium ion batteries (LIBs) based on liquid electrolytes. Solid electrolytes are expected to be non-volatile and nonflammable without electrolyte leakage, suppressing dendritic growth of lithium metal. The benefits of solid electrolytes come from their immobile and mechanically hard state distinguished from the mobile and fluidic state of liquid electrolytes. Solid electrolytes

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8

Kim, Sangtae, Shu Yamaguchi, and James A. Elliott. "Solid-State Ionics in the 21st Century: Current Status and Future Prospects." MRS Bulletin 34, no. 12 (2009): 900–906. http://dx.doi.org/10.1557/mrs2009.211.

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AbstractThe phenomenon of ion migration in solids forms the basis for a wide variety of electrochemical applications, ranging from power generators and chemical sensors to ionic switches. Solid-state ionics (SSI) is the field of research concerning ionic motions in solids and the materials properties associated with them. Owing to the ever-growing technological importance of electrochemical devices, together with the discoveries of various solids displaying superior ionic conductivity at relatively low temperatures, research activities in this field have grown rapidly since the 1960s, culminat

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9

Ota, Hiroki. "(Invited) Application of Liquid Metals in Battery Technology." ECS Meeting Abstracts MA2024-02, no. 35 (2024): 2502. https://doi.org/10.1149/ma2024-02352502mtgabs.

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Анотація:

Stretchable devices have many potential applications, including wearable electronics, robotics, and health monitoring. These mechanically adaptable devices and sensors can seamlessly integrate with electronics on curved or soft surfaces. Given that liquids are more deformable than solids, sensors and actuators utilizing liquids encased in soft templates as sensing elements are particularly suited for these applications. Such devices, leveraging ultra-flexible conductive materials, are referred to as stretchable electronics. Liquid metals (LMs) have emerged as one of a leading material in this

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10

Yang, Jinlin, Jibiao Li, Wenbin Gong, and Fengxia Geng. "Genuine divalent magnesium-ion storage and fast diffusion kinetics in metal oxides at room temperature." Proceedings of the National Academy of Sciences 118, no. 38 (2021): e2111549118. http://dx.doi.org/10.1073/pnas.2111549118.

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Анотація:

Rechargeable magnesium batteries represent a viable alternative to lithium-ion technology that can potentially overcome its safety, cost, and energy density limitations. Nevertheless, the development of a competitive room temperature magnesium battery has been hindered by the sluggish dissociation of electrolyte complexes and the low mobility of Mg2+ ions in solids, especially in metal oxides that are generally used in lithium-ion batteries. Herein, we introduce a generic proton-assisted method for the dissociation of the strong Mg–Cl bond to enable genuine Mg2+ intercalation into an oxide hos

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