Lithiation Analysis of Metal Components for Li-Ion Battery using Ion Beams
Arturo Galindo, Neubi Xavier, Noelia Maldonado, Jes\'us D\'iaz-S\'anchez, Carmen Morant, Gast\'on Garc\'ia, Celia Polop, Qiong Cai, Enrique Vasco

TL;DR
This study investigates the lithiation behavior of six metal components in lithium-ion batteries using ion beam analysis, revealing distinct lithiation mechanisms and correlating experimental data with ab-initio simulations.
Contribution
It introduces a comprehensive ion beam analysis approach to differentiate lithiation behaviors of various metals in LIBs, linking experimental results with thermodynamic models.
Findings
Zn, Al, Sn form pure Li alloys
Mg, Ag create intercalation solid solutions
Cu acts as a lithiation barrier
Abstract
Metal components are extensively used as current collectors, anodes, and interlayers in lithium-ion batteries. Integrating these functions into one component enhances the cell energy density and simplifies its design. However, this multifunctional component must meet stringent requirements, including high and reversible Li storage capacity, rapid lithiation/delithiation kinetics, mechanical stability, and safety. Six single-atom metals (Mg, Zn, Al, Ag, Sn and Cu) are screened for lithiation behavior through their interaction with ion beams in electrochemically tested samples subjected to both weak and strong lithiation regimes. These different lithiation regimes allowed us to differentiate between the thermodynamics and kinetic aspects of the lithiation process. Three types of ions are used to determine Li depth profile: for nuclear reaction analysis (NRA), for Rutherford…
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