Chen Shaojie, Zhang Jingxuan, Nie Lu, Hu Xiangchen, Huang Yuanqi, Yu Yi, Liu Wei
School of Physical Science and Technology, ShanghaiTech University, Shanghai, 201210, China.
Adv Mater. 2021 Jan;33(1):e2002325. doi: 10.1002/adma.202002325. Epub 2020 Nov 25.
Metallic lithium (Li), considered as the ultimate anode, is expected to promise high-energy rechargeable batteries. However, owing to the continuous Li consumption during the repeated Li plating/stripping cycling, excess amount of the Li metal anode is commonly utilized in lithium-metal batteries (LMBs), leading to reduced energy density and increased cost. Here, an all-solid-state lithium-metal battery (ASSLMB) based on a garnet-oxide solid electrolyte with an ultralow negative/positive electrode capacity ratio (N/P ratio) is reported. Compared with the counterpart using a liquid electrolyte at the same low N/P ratios, ASSLMBs show longer cycling life, which is attributed to the higher Coulombic efficiency maintained during cycling. The effect of the species of the interface layer on the cycling performance of ASSLMBs with low N/P ratio is also studied. Importantly, it is demonstrated that the ASSLMB using a limited Li metal anode paired with a LiFePO cathode (5.9 N/P ratio) delivers a stable long-term cycling performance at room temperature. Furthermore, it is revealed that enhanced specific energies for ASSLMBs with low N/P ratios can be further achieved by the use of a high-voltage or high mass-loading cathode. This study sheds light on the practical high-energy all-solid-state batteries under the constrained condition of a limited Li metal anode.
金属锂(Li)被视为终极负极,有望用于高能可充电电池。然而,由于在反复的锂电镀/剥离循环过程中锂的持续消耗,锂金属电池(LMBs)通常会使用过量的锂金属负极,这导致能量密度降低和成本增加。在此,报道了一种基于石榴石氧化物固体电解质且具有超低负/正极容量比(N/P比)的全固态锂金属电池(ASSLMB)。与在相同低N/P比下使用液体电解质的同类电池相比,ASSLMBs具有更长的循环寿命,这归因于循环过程中保持的更高库仑效率。还研究了界面层种类对低N/P比ASSLMBs循环性能的影响。重要的是,已证明使用有限锂金属负极与磷酸铁锂正极配对(N/P比为5.9)的ASSLMB在室温下具有稳定的长期循环性能。此外,研究表明,通过使用高压或高负载量正极,低N/P比的ASSLMBs可进一步实现比能量的提高。这项研究为在有限锂金属负极的受限条件下实用的高能全固态电池提供了思路。
