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W3201478760 abstract "Lithium-ion batteries represent an emerging field. The development of battery materials could benefit from quick techniques that enable atomic-level diagnostics. High-performance cathodes, such as high-voltage spinel, often require coatings to protect against the destructive electrochemical environments at the particle–electrolyte interface. The preparations of these coatings are still in the early phases of development, and their analytical inspection by high-resolution scanning and transmission electron microscopy (HR-S/TEM) techniques presents a significant challenge due to the microscale dimensions of the cathode particles. In this work, a high-throughput ultramicrotome technique was assessed for the characterization of the particle–coating interface. The ultramicrotome technique enabled the rapid preparation of cross sections with a thickness of 126 ± 66 nm as determined by electron energy loss spectroscopy (EELS) measurements. Cathode particles composed of high-voltage spinel, LiNi0.5Mn1.5O4 (LNMO), coated with lithium niobate (LiNbO3) were synthesized, and cross sections were inspected using HR-S/TEM techniques. These ultrathin cross sections enabled the ability to obtain nanoscale information regarding the composition and crystallinity of the particle–coating interface over lateral areas of >1 μm. Accessible correlations between the electrochemical performance of the LiNbO3-coated LNMO particles and the HR-S/TEM results were enabled by the high-throughput method. Discharge capacity measurements were acquired over a series of 100 electrochemical cycles for both the LiNbO3 coated and the as-prepared LNMO particles. The limitations of the ultramicrotome technique are also discussed herein with respect to the coating morphology and the procedure for guidance toward technique optimization. The rapid preparation of ultrathin cross sections can assist the advancement of protective coatings on the surfaces of cathode particles for an efficient characterization of bulk–surface interfaces." @default.
W3201478760 created "2021-09-27" @default.
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W3201478760 date "2021-09-10" @default.
W3201478760 modified "2023-10-10" @default.
W3201478760 title "Enabling a High-Throughput Characterization of Microscale Interfaces within Coated Cathode Particles" @default.
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W3201478760 doi "https://doi.org/10.1021/acsaem.1c01816" @default.
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