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Strategies and Challenge of Thick Electrodes for Energy Storage: A Review

Junsheng Zheng, Junsheng Zheng, Guangguang Xing, Liming Jin, Yanyan Lu, Nan Qin, Shansong Gao, Jim P. Zheng, Jim P. Zheng

2023Batteries75 citationsDOIOpen Access PDF

Abstract

In past years, lithium-ion batteries (LIBs) can be found in every aspect of life, and batteries, as energy storage systems (ESSs), need to offer electric vehicles (EVs) more competition to be accepted in markets for automobiles. Thick electrode design can reduce the use of non-active materials in batteries to improve the energy density of the batteries and reduce the cost of the batteries. However, thick electrodes are limited by their weak mechanical stability and poor electrochemical performance; these limitations could be classified as the critical cracking thickness (CCT) and the limited penetration depth (LPD). The understanding of the CCT and the LPD have been proposed and the recent works on breaking the CCT and improving the LPD are listed in this article. By comprising these attempts, some thick electrodes could not offer higher mass loading or higher accessible areal capacity that would defeat the purpose.

Topics & Concepts

Energy storageMaterials scienceElectrodeCrackingEnergy densityPenetration (warfare)ElectrochemistryElectrochemical energy storageAutomotive engineeringComputer scienceNanotechnologyForensic engineeringEnvironmental scienceComposite materialEngineering physicsSupercapacitorEngineeringQuantum mechanicsOperations researchPower (physics)Physical chemistryPhysicsChemistryAdvanced Battery Technologies ResearchAdvancements in Battery MaterialsAdvanced Battery Materials and Technologies
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