X‐Ray Microscopy: A Non‐Destructive Multi‐Scale Imaging to Study the Inner Workings of Batteries-Reference-Cited by-同舟云学术

X‐Ray Microscopy: A Non‐Destructive Multi‐Scale Imaging to Study the Inner Workings of Batteries

Published:2023-02-03 Issue:7 Volume:10 Page:
ISSN:2196-0216
Container-title:ChemElectroChem
language:en
Short-container-title:ChemElectroChem

Author:

Cognigni Flavio¹^ORCID,Pasquali Mauro¹²,Prosini Pier Paolo³,Paoletti Claudia³,Aurora Annalisa³,Scaramuzzo Francesca Anna¹,Rossi Marco¹²

Affiliation:

1. Department of Basic and Applied Sciences for Engineering (SBAI) University of Rome LA SAPIENZA Via Antonio Scarpa 14 00161 Rome Italy

2. Research Center on Nanotechnology Applied to Engineering (CNIS) University of Rome LA SAPIENZA Piazzale Aldo Moro 5 00185 Rome Italy

3. Department of Energy Technologies and Renewable Sources C.R. ENEA Casaccia Via Anguillarese 301 00123 Rome Italy

Abstract

AbstractX‐ray microscopy (XRM) is a non‐destructive characterization technique that provides quantitative information regarding the morphology/composition of the specimen and allows to perform multiscale and multimodal 2D/3D experiments exploiting the radiation‐matter interactions. XRM is particularly suitable to afford in situ images of inner parts of a battery and for the early diagnosis of its degradation in a non‐invasive way. Since traditional characterization techniques (SEM, AFM, XRD) often require the removal of a component from the encapsulated device that may lead to non‐desired contamination of the sample, the non‐destructive multi‐scale potential of XRM represents an important improvement to batteries investigation. In this work, we present the advanced technical features that characterize a sub‐micron X‐ray microscopy system, its use for the investigation of hidden and internal structures of different types of batteries and to understand their behavior and evolution after many charge/discharge cycles.

Publisher

Wiley

Subject

Electrochemistry,Catalysis

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/celc.202201081

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