Predicting Morphological Evolution during Coprecipitation of MnCO3 Battery Cathode Precursors Using Multiscale Simulations Aided by Targeted Synthesis | Zendy

Juan C. Garcia | Zendy; Pallab Barai | Zendy; Jiajun Chen | Zendy; Arturo Gutierrez | Zendy; Jianguo Wen | Zendy; Ilke Arslan | Zendy; Xiaoping Wang | Zendy; Timothy T. Fister | Zendy; Hakim Iddir | Zendy; Venkat Srinivasan | Zendy

Open Access

Predicting Morphological Evolution during Coprecipitation of MnCO₃ Battery Cathode Precursors Using Multiscale Simulations Aided by Targeted Synthesis

Author(s) -

Juan C. Garcia,

Pallab Barai,

Jiajun Chen,

Arturo Gutierrez,

Jianguo Wen,

Ilke Arslan,

Xiaoping Wang,

Timothy T. Fister,

Hakim Iddir,

Venkat Srinivasan

Publication year - 2020

Publication title -

chemistry of materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.741

H-Index - 375

eISSN - 1520-5002

pISSN - 0897-4756

DOI - 10.1021/acs.chemmater.0c01929

Subject(s) - coprecipitation , materials science , cathode , battery (electricity) , particle (ecology) , chemical physics , lithium ion battery , lithium (medication) , chemical engineering , metal , transition metal , oxide , nanotechnology , thermodynamics , chemistry , metallurgy , medicine , power (physics) , physics , oceanography , biochemistry , endocrinology , engineering , geology , catalysis

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