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Baterias

There is relentless research in the battery industry which aims at developing the future energy storage systems, a task which continues to be one of the crucial technological challenges.

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Baterias

For this purpose, a series of analyses and the characterisation of product reaction effect on electrodes that take place especially at their surface and interface regions are essential. This requires analytical techniques capable of differentiating chemical states with high sensitivity and high spatial resolution.

This has led to extensive investigations on Li-ion batteries as these are envisaged as the basis for high power density secondary sources for electric vehicles and storage devices for the smart grid. Vital performance of Li-ion batteries such as cycle life, internal resistance and capacity, are closely related to the microstructure of electrodes. Solid electrolyte interphase (SEI) has proven to be crucial in increasing the performance and life of lithium-ion batteries. It is, therefore, necessary to fully understand the mechanisms and reactions which lead to the formation of SEI layers on the electrodes in Li-ion batteries.

3D FIB-SEM reconstructions of electrodes at different cycling stages: in terms of active particles (left), porosity with carbon black and all other non-active materials (middle), and the interface between the phases (right). Courtesy of Dr. Bohang Song, the University of Oxford.

3D FIB-SEM reconstructions of electrodes at different cycling stages: in terms of active particles (left), porosity with carbon black and all other non-active materials (middle), and the interface between the phases (right). Courtesy of Dr Bohang Song, the University of Oxford.

  • To this end, TESCAN offers a unique FIB-SEM time-of-flight secondary ion mass spectrometer (TOF-SIMS) integration which allows technologists and scientists working in the battery industry to perform high-resolution surface analyses such as depth profiling and elemental distribution maps to shed light on SEI in Li-ion batteries.
  • Additionally, LYRA3 or FERA3 can be used to implement FIB-tomography to reconstruct the evolution of the 3D structure of Li-ion battery electrodes during extended cycling.
  • The 3D Tomography Advanced software combines the 3D imaging with micro-analytical signals which make 3D EDX and 3D EBSD analyses possible.
  • High-resolution imaging reveals microstructural information at the level of the composite framework consisting of the spherical microparticles of the active material held together by the polymer matrix.

 

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Do you wish to discuss Batteries applications? Contact our Applications Team directly!