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Tuning Interface Mechanics Via β-Configuration Dominant Amyloid Aggregates for Lithium Metal Batteries

Shuaitong Liang, Junping Miao, Haiting Shi, Ming Zeng, Hanwen An, Tianshuai Ma, Tianyu Li, Zhiwei Xu

2022ACS Nano21 citationsDOI

Abstract

Owing to abundant polar groups and good lithiophilicity, protein materials regain interest for application in lithium metal batteries (LMBs). Current proteins with an α-conformation for modifying lithium (Li) anodes possess typically poor mechanical properties, and there is therefore a significant need for advanced protein materials. Herein, a lysozyme-modified layer is coated onto the poly(vinylidene fluoride) electrospun mat for high mechanical strength and uniform Li-ion flux. The lysozyme membrane can regulate Li+ deposition behavior due to complete β-sheet configuration, high lithiophilicity sulfhydryl groups, and columnar nanopores. As a result, the lysozyme-modified Li metal anode exhibits a high stability performance of Li–Li symmetric cells (2800 h) and Li-LiFePO4 full cell (1450 cycles). Our strategy pushes the protein with β-sheet configuration toward the applications of next-generation LMBs.

Topics & Concepts

Materials scienceLithium metalLithium (medication)NanotechnologyInterface (matter)MetalChemical physicsBattery (electricity)Composite materialChemistryPhysicsMetallurgyThermodynamicsCapillary numberPower (physics)EndocrinologyMedicineCapillary actionAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesAdvanced Battery Technologies Research
Tuning Interface Mechanics Via β-Configuration Dominant Amyloid Aggregates for Lithium Metal Batteries | Litcius