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Advanced Materials for Sodium‐Ion Capacitors with Superior Energy–Power Properties: Progress and Perspectives
Author(s) -
Zhang Hongwei,
Hu Mingxiang,
Lv Qian,
Huang ZhengHong,
Kang Feiyu,
Lv Ruitao
Publication year - 2020
Publication title -
small
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.785
H-Index - 236
eISSN - 1613-6829
pISSN - 1613-6810
DOI - 10.1002/smll.201902843
Subject(s) - materials science , capacitor , anode , electrochemistry , lithium (medication) , energy storage , battery (electricity) , electrolyte , cathode , ion , engineering physics , nanotechnology , electrode , electrical engineering , power (physics) , voltage , chemistry , engineering , medicine , physics , organic chemistry , quantum mechanics , endocrinology
Abstract Developing electrochemical energy storage devices with high energy–power densities, long cycling life, as well as low cost is of great significance. Sodium‐ion capacitors (NICs), with Na + as carriers, are composed of a high capacity battery‐type electrode and a high rate capacitive electrode. However, unlike their lithium‐ion analogues, the research on NICs is still in its infancy. Rational material designs still need to be developed to meet the increasing requirements for NICs with superior energy–power performance and low cost. In the past few years, various materials have been explored to develop NICs with the merits of superior electrochemical performance, low cost, good stability, and environmental friendliness. Here, the material design strategies for sodium‐ion capacitors are summarized, with focus on cathode materials, anode materials, and electrolytes. The challenges and opportunities ahead for the future research on materials for NICs are also proposed.