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In Situ Insights into Cathode Calcination for Predictive Synthesis: Kinetic Crystallization of LiNiO<sub>2</sub> from Hydroxides

Akhil Tayal, Pallab Barai, Hui Zhong, Özgenur Kahvecioğlu, Xiaoping Wang, Krzysztof Pupek, Lu Ma, Steven N. Ehrlich, Venkat Srinivasan, Xiaohui Qu, Jianming Bai, Feng Wang

2024Advanced Materials31 citationsDOIOpen Access PDF

Abstract

Abstract Calcination is a solid‐state synthesis process widely deployed in battery cathode manufacturing. However, its inherent complexity associated with elusive intermediates hinders the predictive synthesis of high‐performance cathode materials. Here, correlative in situ X‐ray absorption/scattering spectroscopy is used to investigate the calcination of nickel‐based cathodes, focusing specifically on the archetypal LiNiO 2 from Ni(OH) 2 . Combining in situ observation with data‐driven analysis reveals concurrent lithiation and dehydration of Ni(OH) 2 and consequently, the low‐temperature crystallization of layered LiNiO 2 alongside lithiated rocksalts. Following early nucleation, LiNiO 2 undergoes sluggish crystallization and structural ordering while depleting rocksalts; ultimately, it turns into a structurally‐ordered layered phase upon full lithiation but remains small in size. Subsequent high‐temperature sintering induces rapid crystal growth, accompanied by undesired delithiation and structural degradation. These observations are further corroborated by mesoscale modeling, emphasizing that, even though calcination is thermally driven and favors transformation towards thermodynamically equilibrium phases, the actual phase propagation and crystallization can be kinetically tuned via lithiation, providing freedom for structural and morphological control during cathode calcination.

Topics & Concepts

Materials scienceCalcinationCrystallizationChemical engineeringIn situLayered double hydroxidesCathodeNanotechnologyPhysical chemistryCatalysisHydroxideOrganic chemistryEngineeringChemistryAdvancements in Battery MaterialsExtraction and Separation ProcessesMolten salt chemistry and electrochemical processes
In Situ Insights into Cathode Calcination for Predictive Synthesis: Kinetic Crystallization of LiNiO<sub>2</sub> from Hydroxides | Litcius