期刊
ENERGY STORAGE MATERIALS
卷 53, 期 -, 页码 937-945出版社
ELSEVIER
DOI: 10.1016/j.ensm.2022.09.022
关键词
Ceramer electrolyte; In-situ constructing; Organic-inorganic; Dendrite-free; Lithium metal battery
资金
- National Natural Science Foundation of China [51873011]
- National Key R&D Program of China [2020YFC1910201]
- Shanghai Sailing Program [21YF1430100]
This research improves the lifetime and safety of lithium metal batteries by synthesizing a novel ceramer electrolyte, which exhibits outstanding performance such as long cycle life, dendrite-free property, and high capacity retention.
The lifetime and safety of lithium metal batteries (LMBs) with commercial polyolefin separators and liquid electrolytes are deteriorated by the lithium dendrites, as well as leakage and combustion of liquid electrolytes. To effectively address these issues, a ceramer electrolyte is in-situ synthesized to exquisitely combine meritorious properties of both ceramic silica (e.g. high modulus) and polymer poly-1,3-dioxolane (e.g. flexibility/good interface with electrodes), leading to excellent performance for the LMBs. The lithium anodes with the novel ceramer electrolyte exhibit ultra-long cycle life and lithium dendrite-free property that is confirmed by in-situ optical microscope. The Li/Li symmetric cells stably plat and strip for up to 3,600 h at 0.5 mA cm 2 with a constant low overpotential. The LiFePO4/Li cells present up to 90.3% capacity retention and 99.9% coulombic efficiency at 1 C after 500 cycles. Even at a higher current density of 2C, the cell performs an excellent long-term cycle stability with a capacity decay of only 0.0285% per cycle. More significantly, the assembled coin cells (LiNi0.8Co0.1Mn0.1O2/Li) delivers high capacity retention of 80.2% at 1 C after 500 cycles, and the pouch cell with high cathode loading (10 mg cm(-2)) and thin lithium anode (similar to 50 mu m) is operated stably. This research provides a very promising strategy to construct a unique organic-inorganic electrolyte with excellent comprehensive properties effectively enabling long-cycle and high-safety LMBs.
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