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Thin Film Electrodes: Surface Evolution of Lithium Titanate upon Electrochemical Cycling Using a Combination of Surface Specific Characterization Techniques (Adv. Mater. Interfaces 11/2020)

Highly oriented thin‐film electrodes are the best playground to better understand the evolution of the electrode‐electrolyte interfaces during battery operation. This is crucial to develop next generation batteries. In this cover the authors represent Li ions (spheres) from the electrolyte (fog) rea...

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Published in:	Advanced materials interfaces 2020-06, Vol.7 (11), p.n/a
Main Authors:	Rikarte, Jokin, Acebedo, Begoña, Vilalta‐Clemente, Arantxa, Bonilla, Francisco, Wilkinson, Angus J., Galceran, Montserrat, Lousa, Arturo, Rubio‐Zuazo, Juan, Muñoz‐Márquez, Miguel Ángel
Format:	Article
Language:	English
Subjects:	Electrodes Electrolytes Evolution high‐resolution TEM HREBSD Li4Ti5O7 Lithium Li‐ion batteries, surface reactivity Playgrounds Thin films XPS
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container_title	Advanced materials interfaces
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creator	Rikarte, Jokin Acebedo, Begoña Vilalta‐Clemente, Arantxa Bonilla, Francisco Wilkinson, Angus J. Galceran, Montserrat Lousa, Arturo Rubio‐Zuazo, Juan Muñoz‐Márquez, Miguel Ángel
description	Highly oriented thin‐film electrodes are the best playground to better understand the evolution of the electrode‐electrolyte interfaces during battery operation. This is crucial to develop next generation batteries. In this cover the authors represent Li ions (spheres) from the electrolyte (fog) reaching LTO electrode surface (SEM image) as in cell operation. More details can be found in article number 1902164 by Miguel Ángel Muñoz‐Márquez and co‐workers.
doi_str_mv	10.1002/admi.202070062
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subjects	Electrodes Electrolytes Evolution high‐resolution TEM HREBSD Li4Ti5O7 Lithium Li‐ion batteries, surface reactivity Playgrounds Thin films XPS
title	Thin Film Electrodes: Surface Evolution of Lithium Titanate upon Electrochemical Cycling Using a Combination of Surface Specific Characterization Techniques (Adv. Mater. Interfaces 11/2020)
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