Eliminating water hazards and regulating electrode-electrolyte interfaces by multifunctional sacrificial electrolyte additives for long-life lithium metal batteries

B Yang, A Hu, T Li, K Li, Y Li, J Jiang, Z Xiao… - Energy Storage …, 2024 - Elsevier
Lithium-metal anodes coupled with high-nickel ternary cathodes offer the potential for high-
energy-density batteries. However, the practical cycling stability of lithium-metal batteries …

Li-current collector interface in lithium metal batteries

TY Wang, D Zhao, K Liang, Y Li - Nano Research, 2024 - Springer
Interfaces within batteries, such as the widely studied solid electrolyte interface (SEI),
profoundly influence battery performance. Among these interfaces, the solid–solid interface …

Ionic layer epitaxy growth of organic/inorganic composite protective layers for large-area Li and Zn metal anodes

D Yang, X Wu, L He, H Zhao, Y Wang, Z Zhang… - Nano Letters, 2023 - ACS Publications
Li and Zn metal batteries using organic and aqueous electrolytes, respectively, are desirable
next-generation energy storage systems to replace the traditional Li-ion batteries. However …

A High‐Power Rechargeable Sodium‐Ion Full Battery Operating at− 40° C

Y Wang, H Lan, S Dong, Q Zhu, L Cheng… - Advanced Functional …, 2024 - Wiley Online Library
High‐power‐density rechargeable batteries are highly indispensable for power‐intensive
application scenarios, such as vehicle start‐stop system and grid‐level frequency regulation …

A covalently bonded, LiF-rich solid electrolyte interphase for Li metal batteries with superior low-temperature performance

S Chen, X Meng, D Han, S Chen, J Zhou… - Chemical Engineering …, 2024 - Elsevier
The solid electrolyte interphase (SEI) layer plays a critical role in determining the
performance of lithium metal batteries (LMBs). Here, we show that treating Li foils with 4, 4 …

Toward waterproof magnesium metal anodes by uncovering water-induced passivation and drawing water-tolerant interphases

Y Li, X Feng, G Yang, WY Lieu, L Fu, C Zhang… - Nature …, 2024 - nature.com
Magnesium (Mg) metal is a promising anode candidate for high-energy and cost-effective
multivalent metal batteries, but suffers from severe surface passivation in conventional …

Catalytic anode surface enabling in situ polymerization of gel polymer electrolyte for stable Li metal batteries

G Li, K Liang, Y Li, X Duan, L Fu, Z Cai, Z Zhang, J Dai… - Nano Research, 2024 - Springer
Employing quasi-solid-state gel polymer electrolyte (GPE) instead of the liquid counterpart
has been regarded as a promising strategy for improving the electrochemical performance …

Fast Li+ De‐Solvation Kinetics with PDDA Intercalated‐Montmorillonite Hybrid Artificial Interface Layer on Cu Substrate for Lithium Metal Batteries in a Wide Climate …

Y Shen, J Gu, Z Zhu, L Zhang, XJ Lv… - Advanced Functional …, 2024 - Wiley Online Library
The tolerance requirement of lithium metal batteries in harsh environments presents great
challenges to electrode materials and electrolytes because temperature plays a significant …

Rational Molecular Engineering via Electron Reconfiguration toward Robust Dual-Electrode/Electrolyte Interphases for High-Performance Lithium Metal Batteries

Y Zhang, Y Cao, B Zhang, H Gong, S Zhang, X Wang… - ACS …, 2024 - ACS Publications
High-energy-density lithium–metal batteries (LMBs) coupling lithium–metal anodes and high-
voltage cathodes are hindered by unstable electrode/electrolyte interphases (EEIs), which …

The challenges and solutions for low-temperature lithium metal batteries: Present and future

Q Sheng, Y Huang, Q Han, H Li, X Tao, O Sheng… - Energy Storage …, 2024 - Elsevier
The emerging lithium (Li) metal batteries (LMBs) are anticipated to enlarge the baseline
energy density, which hold promise to supplement the capacity loss under low-temperature …