Articles with "lithium iron" as a keyword



Emerging Thermal Safety Characteristics of Large‐Capacity Lithium Iron Phosphate Lithium‐Ion Batteries

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Published in 2025 at "Advanced Energy Materials"

DOI: 10.1002/aenm.202503248

Abstract: Lithium iron phosphate is generally considered to be one of the most thermally stable cathode materials for commercial lithium‐ion batteries, while emerging thermal safety characteristics rise with the large‐capacity lithium‐ion batteries in large‐scale stationary energy… read more here.

Keywords: lithium; lithium ion; ion batteries; lithium iron ... See more keywords

A Critical Review on the Recycling Strategy of Lithium Iron Phosphate from Electric Vehicles.

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Published in 2023 at "Small methods"

DOI: 10.1002/smtd.202300125

Abstract: Electric vehicles (EVs) are one of the most promising decarbonization solutions to develop a carbon-negative economy. The increasing global storage of EVs brings out a large number of power batteries requiring recycling. Lithium iron phosphate… read more here.

Keywords: electric vehicles; iron phosphate; lithium iron;

Thermal-Electrochemical Coupled Simulations for Cell-to-Cell Imbalances in Lithium-Iron-Phosphate Based Battery Packs

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Published in 2017 at "Applied Thermal Engineering"

DOI: 10.1016/j.applthermaleng.2017.05.105

Abstract: Abstract A thermal-electrochemical coupled model framework considering mass balance, charge balance, reaction kinetics, and energy balance is developed to evaluate thermally-driven imbalance among cells of a commercialized lithium-iron-phosphate battery pack consisting of a combination of… read more here.

Keywords: thermal electrochemical; battery pack; battery; electrochemical coupled ... See more keywords

Experimental analysis of Dynamic Charge Acceptance test conditions for lead-acid and lithium iron phosphate cells

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Published in 2017 at "Journal of energy storage"

DOI: 10.1016/j.est.2017.03.012

Abstract: This paper presents the results of a series of tests to determine the Dynamic Charge Acceptance (DCA) performance of small form-factor carbon-enhanced VRLA cells designed for use in Hybrid Electric Vehicle (HEV) applications, together with… read more here.

Keywords: dynamic charge; test; charge acceptance; acid lithium ... See more keywords

Iron and lithium-iron alkyl phosphates as nanostructured material for rechargeable batteries

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Published in 2018 at "Materials Letters"

DOI: 10.1016/j.matlet.2018.02.112

Abstract: Abstract Inorganic/organic hybrid materials composed by iron atoms bonded to an alkyl phosphate can be easily synthesized by mixing at 110 °C iron chlorides with tri-alkyl phosphates. Since structural information on these products are lacking and… read more here.

Keywords: iron lithium; lithium; alkyl phosphates; iron ... See more keywords

Lithium Iron Oxide (LiFeO2) for Electroreduction of Dinitrogen to Ammonia.

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Published in 2020 at "ACS applied materials & interfaces"

DOI: 10.1021/acsami.0c10991

Abstract: Electrochemical nitrogen fixation offers a promising route for sustainable NH3 production, while the rational design of effective and durable electrocatalysts is urgently required for an effective nitrogen reduction reaction (NRR) process. Herein, we explore lithium… read more here.

Keywords: electroreduction dinitrogen; iron oxide; lifeo2 electroreduction; oxide lifeo2 ... See more keywords

Design Principles for Efficient Hydrothermal Relithiation of Spent Lithium Iron Phosphate.

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Published in 2025 at "ACS applied materials & interfaces"

DOI: 10.1021/acsami.4c17326

Abstract: Direct regeneration, which involves replenishing lithium in spent cathode materials, is emerging as a promising recycling technique for spent lithium iron phosphate (s-LFP) cathodes. Unlike solid-state regeneration, the aqueous relithiation method consumes less energy, ensures… read more here.

Keywords: lithium; relithiation; spent lithium; lithium iron ... See more keywords

Formation of size-dependent and conductive phase on lithium iron phosphate during carbon coating

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Published in 2018 at "Nature Communications"

DOI: 10.1038/s41467-018-03324-7

Abstract: Carbon coating is a commonly employed technique for improving the conductivity of active materials in lithium ion batteries. The carbon coating process involves pyrolysis of organic substance on lithium iron phosphate particles at elevated temperature… read more here.

Keywords: phase; iron phosphate; carbon; carbon coating ... See more keywords

Thermally modulated lithium iron phosphate batteries for mass-market electric vehicles

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Published in 2021 at "Nature Energy"

DOI: 10.1038/s41560-020-00757-7

Abstract: The pursuit of energy density has driven electric vehicle (EV) batteries from using lithium iron phosphate (LFP) cathodes in early days to ternary layered oxides increasingly rich in nickel; however, it is impossible to forgo… read more here.

Keywords: thermally modulated; lithium iron; iron phosphate;
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Electrochemical lithium recovery with lithium iron phosphate: what causes performance degradation and how can we improve the stability?

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Published in 2021 at "Sustainable Energy and Fuels"

DOI: 10.1039/d1se00450f

Abstract: The reason for the capacity fading of LiFePO4 in lithium recovery is explored. And two approaches, reducing the content of oxygen and carbon coating, are put forward, and the mechanism of them are studied. read more here.

Keywords: lithium recovery; recovery lithium; electrochemical lithium; lithium ... See more keywords

Total Lithium Extraction from Lithium Iron Phosphate Batteries Using Tartaric and Formic Acids: Comparative and Kinetic Study

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Published in 2025 at "Mineral Processing and Extractive Metallurgy Review"

DOI: 10.1080/08827508.2025.2492618

Abstract: ABSTRACT The rapid expansion of the battery market also increases the demand for raw materials, particularly metals. Recently, new technologies have been implemented to recover valuable materials from secondary resources. In this investigation, a hydrometallurgical… read more here.

Keywords: lithium; lithium extraction; iron; lithium iron ... See more keywords