2019
DOI: 10.1007/s40820-019-0322-9
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Recent Progress on Zinc-Ion Rechargeable Batteries

Abstract: HIGHLIGHTS• The recent progress about zinc-ion batteries was systematically summarized in detail, including the merits and limits of aqueous and nonaqueous electrolytes, various cathode materials, zinc anode, and solid-state zinc-ion batteries.• Current challenges and perspectives to future research directions are also provided. ABSTRACT The increasing demands for environmentally friendly grid-scale electric energy storage devices with high energy density and low cost have stimulated the rapid development of v… Show more

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Cited by 234 publications
(140 citation statements)
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References 135 publications
(194 reference statements)
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“…Furthermore, its high theoretical specific capacity of 819 mAh g −1 , low redox potential of Zn/Zn 2+ (−0.76 V vs standard hydrogen electrode), and its low cost have captured significant research interest as one of the most promising battery technologies. [ 15–19 ] While much can be celebrated due to these attractive properties, ZIB research is still severely plagued with the limited selection of materials that can demonstrate reversible Zn 2+ storage after prolonged cycling. [ 20–22 ] This is especially crucial as the cathode is arguably one of the most important components in the ZIB, which can significantly influence the overall electrochemical performance of the ZIB.…”
Section: Introductionmentioning
confidence: 99%
“…Furthermore, its high theoretical specific capacity of 819 mAh g −1 , low redox potential of Zn/Zn 2+ (−0.76 V vs standard hydrogen electrode), and its low cost have captured significant research interest as one of the most promising battery technologies. [ 15–19 ] While much can be celebrated due to these attractive properties, ZIB research is still severely plagued with the limited selection of materials that can demonstrate reversible Zn 2+ storage after prolonged cycling. [ 20–22 ] This is especially crucial as the cathode is arguably one of the most important components in the ZIB, which can significantly influence the overall electrochemical performance of the ZIB.…”
Section: Introductionmentioning
confidence: 99%
“…To meet the increasing demand for eco-friendly, renewable, and portable/mobile power sources, researchers have continued to study new energy conversion and storage systems [1][2][3][4][5]. Zn-air batteries have been widely studied owing to their high theoretical energy density, excellent safety, and eco-friendliness compared to other types of rechargeable batteries [6][7][8][9].…”
Section: Introductionmentioning
confidence: 99%
“…In tetragonal λ‐MnO 2 , Zn 2+ diffuses from 8a‐sites to neighboring 8a‐sites through 16c‐sites; however, Mn atoms at 16d‐sites (close to 16c‐sites) hinder the movement of Zn 2+ by electrostatic repulsion 81 . These findings confirm that further architecture modification is necessary for spinel‐type samples like λ‐MnO 2 and ZnMn 2 O 4 to become qualified Zn 2+ hosts considering their limited 3D tunnels and strong electrostatic repulsion toward Zn 2+ 26,38,39,48,67 . As shown in Figure 6, a treatment on the ZnMn 2 O 4 lattice was carried out to produce Mn vacancies or deficiencies by extracting oxygen anions, which lowers the electrostatic barrier for Zn 2+ transfer and alleviates the Mn species dissolution due to the higher Mn oxidation state.…”
Section: Crystal Structures Of Manganese Oxidesmentioning
confidence: 54%
“…Various strategies including additives addition, surface engineering, and structural/hierarchical design have been developed to circumvent these problems 41,42,45‐54 . More studies on anode modifications for ZIBs can be found in recent reviews 39,41,42,48 …”
Section: Introduction Of Flexible Zn‐ion Batteriesmentioning
confidence: 99%