Construction of Composite Lithium with High Adhesion Work and Fast Ionic Conductivity by Black Phosphorus for Solid-State Lithium Batteries

IF 16.8 1区材料科学 Q1 CHEMISTRY, PHYSICAL Nano Energy Pub Date : 2024-10-10 DOI:10.1016/j.nanoen.2024.110356

Zongyang Li, Desha Tang, Wenjie Wang, Chen Li, Rongrui Deng, Yongheng Fang, Yumei Wang, Chaohe Xu, Ronghua Wang

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Abstract

Li_6.4La₃Zr_1.4Ta_0.6O₁₂ (LLZTO) based solid-state lithium metal batteries (SSLMBs) have a broad application prospect because of the nonflammable nature as well as the high energy density. However, the loose contact and the contact degradation of Li/LLZTO in the stripping process result in the serious lithium dendrites growth. Herein, these issues are addressed by a composite lithium anode (CLA), which is prepared through the reaction between black phosphorus and molten lithium. In comparison to pure lithium, a higher adhesion work (722.67 mJ m^-2) and Li⁺ diffusion coefficient (2.45×10^-12 cm² s^-1) are achieved for CLA, thus assuring the intimate interfacial contact of CLA/LLZTO interface during the lithium stripping process. As a result, a small interfacial resistance of 3.7 Ω cm², a high critical current density of 1.5 mA cm^-2, and extra-long cycle life of 8200 h at 0.3 mA cm^-2 are achieved for CLA symmetric cell at 25 ºC. More importantly, the full cell coupled with high mass loading LiFePO₄ cathode (10.6 mg cm^-2) still shows a large discharge capacity of 156.3 mAh g^-1 and cycles stably at 25 ºC. This work provides an alternative approach to develop the long lifespan and high capacity of SSLMBs.

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用黑磷为固态锂电池构建具有高粘合功和快速离子导电性的复合锂

基于 Li6.4La3Zr1.4Ta0.6O12（LLZTO）的固态锂金属电池（SSLMB）因其不可燃性和高能量密度而具有广阔的应用前景。然而，锂/LLZTO 在剥离过程中的松散接触和接触降解会导致严重的锂枝晶生长。在此，通过黑磷与熔融锂反应制备的复合锂负极（CLA）解决了这些问题。与纯锂相比，CLA 具有更高的附着功（722.67 mJ m-2）和 Li+ 扩散系数（2.45×10-12 cm2 s-1），从而确保了锂剥离过程中 CLA/LLZTO 界面的亲密接触。因此，CLA 对称电池在 25 ºC 温度条件下可实现 3.7 Ω cm2 的小界面电阻、1.5 mA cm-2 的高临界电流密度和 0.3 mA cm-2 的 8200 小时超长循环寿命。更重要的是，采用高负载磷酸铁锂阴极（10.6 mg cm-2）的全电池仍显示出 156.3 mAh g-1 的大放电容量，并能在 25 ºC 温度下稳定循环。这项工作为开发长寿命和高容量的 SSLMB 提供了另一种方法。

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来源期刊

Nano Energy CHEMISTRY, PHYSICAL-NANOSCIENCE & NANOTECHNOLOGY

CiteScore

30.30

自引率

7.40%

发文量

1207

审稿时长

23 days

期刊介绍： Nano Energy is a multidisciplinary, rapid-publication forum of original peer-reviewed contributions on the science and engineering of nanomaterials and nanodevices used in all forms of energy harvesting, conversion, storage, utilization and policy. Through its mixture of articles, reviews, communications, research news, and information on key developments, Nano Energy provides a comprehensive coverage of this exciting and dynamic field which joins nanoscience and nanotechnology with energy science. The journal is relevant to all those who are interested in nanomaterials solutions to the energy problem. Nano Energy publishes original experimental and theoretical research on all aspects of energy-related research which utilizes nanomaterials and nanotechnology. Manuscripts of four types are considered: review articles which inform readers of the latest research and advances in energy science; rapid communications which feature exciting research breakthroughs in the field; full-length articles which report comprehensive research developments; and news and opinions which comment on topical issues or express views on the developments in related fields.