期刊
ADVANCED MATERIALS
卷 32, 期 45, 页码 -出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adma.202003592
关键词
cathodes; inorganic open-framework; ultrafast charging; zero-strain; zinc-ion batteries
类别
资金
- National Natural Science Foundation of China [21971239, 21771180, 51702318]
Low-cost and high-safety aqueous Zn-ion batteries are an exceptionally compelling technology for grid-scale energy storage. However, their development has been plagued by the lack of stable cathode materials allowing fast Zn2+-ion insertion and scalable synthesis. Here, a lattice-water-rich, inorganic-open-framework (IOF) phosphovanadate cathode, which is mass-producible and delivers high capacity (228 mAh g(-1)) and energy density (193.8 Wh kg(-1)or 513 Wh L-1), is reported. The abundant lattice waters functioning as a charge shield enable a low Zn2+-migration energy barrier, (0.66 eV) even close to that of Li(+)within LiFePO4. This fast intrinsic ion-diffusion kinetics, together with nanostructure effect, allow the achievements of ultrafast charging (71% state of charge in 1.9 min) and an ultrahigh power density (7200 W kg(-1)at 107 Wh kg(-1)). Equally important, the IOF exhibits a quasi-zero-strain feature (<1% lattice change upon (de)zincation), which ensures ultrahigh cycling durability (3000 cycles) and Coulombic efficiencies of 100%. The cell-level energy and power densities reach approximate to 90 Wh kg(-1)and approximate to 3320 W kg(-1), far surpassing commercial lead-acid, Ni-Cd, and Ni-MH batteries. Lattice-water-rich IOFs may open up new opportunities for exploring stable and fast-charging Zn-ion batteries.
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