A Review of 3-D Printing Batteries

Published: Feb. 14, 2024

To stabilize the Earth’s climate a large-scale transition is needed to non-carbon emitting renewable energy technologies like wind and solar energy. Although these sources are now lower-cost than fossil fuels, their inherent intermittency make them unable supply constant load without storage. address challenges rechargeable electric batteries currently most promising option; however, high capital costs limit current deployment velocities. both reduce cost as well improve performance 3D printing technology has emerged solution. This literature review provides state-of-the-art enhancements of battery properties with including efficiency, mechanical stability, power density, customizability sizing, production process material conservation environmental sustainability progress in solid-state batteries. The principles, advantages, limitations, recent advancements associated common types reviewed focusing on contributions field. offer design flexibility, reduces pack weight, minimizes waste, increases range applications potential costs. As become more accessible, prospect cost-effective for customized extremely promising.

Language: Английский

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A Method for Assessing the Technical Condition of Traction Batteries Using the Metalog Family of Probability Distributions

Energies, Journal Year: 2024, Volume and Issue: 17(13), P. 3096 - 3096

Published: June 23, 2024

The aim of the research presented in article is to use Metalog family probability distributions assess technical condition traction battery packs from electric and hybrid vehicles. description object, which a pack vehicle, will be provided. Then, system for controlled charging discharging individual cells reviewed. It an essential diagnostic device used determine capacity cells. values all then analyzed using distribution family. this tool allows us Probability Density Function entire pack. Based on this, diagnostician able tested package decide its further fate. can intended repair, employed as stationary energy storage facility, or disposal. algorithm assessing batteries proposed by authors regardless type their capacity.

Language: Английский

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FFF/FDM 3D-Printed Solid Polymer Electrolytes Based on Acrylonitrile Copolymers for Lithium-Ion Batteries

Molecules, Journal Year: 2024, Volume and Issue: 29(19), P. 4526 - 4526

Published: Sept. 24, 2024

Lithium-ion batteries (LIBs) are essential in modern electronics, particularly portable devices and electric vehicles. However, the limited design flexibility of current battery shapes constrains development custom-sized power sources for advanced applications like wearable electronics medical devices. Additive manufacturing (AM), specifically Fused Filament Fabrication (FFF), presents a promising solution by enabling creation with customized shapes. This study explores use novel poly(acrylonitrile-co-polyethylene glycol methyl ether acrylate) (poly(AN-co-PEGMEA)) copolymers as solid polymer electrolytes lithium-ion batteries, optimized 3D printing using FFF. The were synthesized varying AN:PEGMEA ratios, their physical, thermal, electrochemical properties systematically characterized. found that poly(AN-co-PEGMEA) 6:1 copolymer ratio offers an optimal balance between printability ionic conductivity. successful extrusion filaments subsequent complex demonstrate potential these materials next-generation designs. addition succinonitrile (SCN) plasticizer significantly improved conductivity lithium cation transference numbers, making viable practical applications. work highlights combining chemistry additive to provide new opportunities function.

Language: Английский

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Additive Fabrication of Polyaniline and Carbon-Based Composites for Energy Storage

Polymers, Journal Year: 2024, Volume and Issue: 16(23), P. 3369 - 3369

Published: Nov. 29, 2024

The growing demand for efficient energy storage systems, particularly in portable electronics and electric vehicles, has led to increased interest supercapacitors, which offer high power density, rapid charge/discharge rates, long cycle life. However, improving their density without compromising performance remains a challenge. In this study, we developed novel 3D-printed reduced graphene oxide (rGO) electrodes coated with polyaniline (PANI) enhance electrochemical properties. rGO were fabricated using direct ink writing (DIW), allowed precise control over thickness, ranging from 4 24 layers. A unique formulation was optimized the printing process, consisting of rGO, cellulose acetate (CA) as binder, acetone solvent. PANI coating applied via chemical oxidative polymerization (COP) up five deposition cycles. Electrochemical testing, including cyclic voltammetry (CV), galvanostatic (GCD), impedance spectroscopy (EIS), revealed that 12-layer three cycles achieved highest areal capacitance 84.32 mF/cm

Language: Английский

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3D-Printed Lithium-Ion Battery Electrodes: A Brief Review of Three Key Fabrication Techniques

Materials, Journal Year: 2024, Volume and Issue: 17(23), P. 5904 - 5904

Published: Dec. 2, 2024

In recent years, 3D printing has emerged as a promising technology in energy storage, particularly for the fabrication of Li-ion battery electrodes. This innovative manufacturing method offers significant material composition and electrode structure flexibility, enabling more complex efficient designs. While traditional methods are well-established, opens up new possibilities enhancing performance by allowing tailored geometries, usage, integrating multifunctional components. article examines three key fabricating electrodes: (1) extrusion (ME), which encompasses two subcategories-fused deposition modeling (FDM), also referred to fused filament (FFF), direct ink writing (DIW); (2) jetting (MJ), including inkjet (IJP) aerosol jet (AJP) methods; (3) vat photopolymerization (VAT-P), includes stereolithographic apparatus (SLA) subcategory. These have been applied substrates, thin-film electrodes, electrolytes half-cell full-cell batteries. discussion focuses on their strengths, limitations, potential advancements storage applications.

Language: Английский

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