Abstract
<p indent="0mm">Electrochemical energy storage devices include solid/gas/liquid interface reactions, electron, ion and mass transmission processes, which were across a range of micro-meso-macro scales. The macro-electrochemical properties of electrode materials are the comprehensive manifestations of different scale influence factors. From the crystallization point of view, this article introduces the crystal structure, interface structure and three-dimensional structure which are beneficial to ion and electron transfer, and develops a new type of colloidal electrode material, which strengthens the electrochemical properties of electrode material. Guided by functional application, integrating atomic molecules, materials and devices to design multiscale electrode materials is one of the directions to solve the problems faced by electrochemical energy storage devices.
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