2021
DOI: 10.1016/j.jpowsour.2021.229957
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Preparation of spherical carbonated foam/Zn–Al layered double oxides composite anode and its superior cycling stability in Zinc–Nickel secondary batteries

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Cited by 15 publications
(8 citation statements)
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“…In contrast, the N 2 adsorption–desorption isotherms of H-ZnO (Figure S3b) and ZnO@SnO 2 (Figure S3c) show type-IV isotherms. They show adsorption hysteresis loops in the relative pressure ( P / P 0 ) range of 0.8–1.0, and this hysteresis loop is attributed to the loose accumulation of nanosheets . Moreover, the average particle size of ZnO@SnO 2 (508.5327 nm) shows an increase compared to H-ZnO (470.6452 nm), which is caused by the adsorption of SnO 2 on the surface of flower-like ZnO.…”
Section: Resultsmentioning
confidence: 99%
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“…In contrast, the N 2 adsorption–desorption isotherms of H-ZnO (Figure S3b) and ZnO@SnO 2 (Figure S3c) show type-IV isotherms. They show adsorption hysteresis loops in the relative pressure ( P / P 0 ) range of 0.8–1.0, and this hysteresis loop is attributed to the loose accumulation of nanosheets . Moreover, the average particle size of ZnO@SnO 2 (508.5327 nm) shows an increase compared to H-ZnO (470.6452 nm), which is caused by the adsorption of SnO 2 on the surface of flower-like ZnO.…”
Section: Resultsmentioning
confidence: 99%
“…28,29 (iii) Zinc oxide as a conventional anode material for Zn−Ni batteries does not exhibit particularly excellent electrochemical properties. Therefore, calcium zincate, 30 Zn−Al layered double oxides, 31 and Zn−Al layered double hydroxides 32 Moreover, the strategy optimization and application exploration of anode-free cells 33 not only reduce the manufacturing cost but also provide a reference for the development direction of rechargeable metal batteries. SnO 2 is a wide band gap n-type (3.6 eV) semiconductor oxide 34 with a wide range of applications in chemical sensors, solar cells, catalytic carrier materials, etc.…”
Section: ■ Introductionmentioning
confidence: 99%
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“…The most recent battery candidates developed are Li-Ion [76][77][78][79][80][81][82][83], Lipolymer [84][85][86][87][88][89][90][91], and NiMH [122][123][124][125][126][127][128] batteries, due to significant energy density, life cycle, and operating temperature range, where the battery can provide its highest promising efficiency. The other listed batteries are undesirable for EVs; the worst kinds are NaNiCl 2 [92][93][94][95][96][97][98][99][100][101][102][103], NaS, NiZn [129][130][131][132][133][134][135], and ZnCl 2 . Although NaNiCl 2 and NaS have shown a notable life cycle, their operating temperature is the main reason for not deploying them.…”
Section: Systematic Review Of Recent Development In Besssmentioning
confidence: 99%