Xiaodie Deng scite author profile

The demand for high-energy-density lithium batteries (LBs) that work under a wide temperature range (−40 to 60 °C) has been increasing recently. However, the conventional lithium hexafluorophosphate (LiPF6)-based ester electrolyte with a solvent-based solvation structure has limited the practical application of LBs under extreme temperature conditions. In this work, a novel localized high-concentration electrolyte (LHCE) system is designed to achieve the anion-containing solvation structure with less free solvent molecules using lithium difluorophosphate (LiPO2F2) as a lithium salt, which enables wide-temperature electrolyte for LBs. The optimized solvation structure contributes to the cathode–electrolyte interface (CEI) with abundant LiF and P–O components on the surface of the LiNi0.5Co0.2Mn0.3O2 (NCM523) cathode, effectively inhibiting the decomposition of electrolyte and the dissolution of transition-metal ions (TMIs). Moreover, the weakened Li+–dipole interaction is also beneficial to the desolvation process. Therefore, the 4.3 V Li||NCM523 cell using the modified electrolyte maintains a high capacity retention of 81.0% after 200 cycles under 60 °C. Meanwhile, a considerable capacity of 70.9 mAh g–1 (42.0% of that at room temperature) can be released at an extremely low temperature of −60 °C. This modified electrolyte dramatically enhances the electrochemical stability of NCM523 cells by regulating the solvation structure, providing guidelines for designing a multifunctional electrolyte that works under a wide temperature range.

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Mild and controllable solid electrolyte interphase formation for high-voltage lithium metal batteries in a wide-temperature range from −40 °C to 80 °C

Hua²,

Deng³

et al. 2023

Chemical Engineering Journal

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Bifunctional Localized High-Concentration Electrolyte for the Fast Kinetics of Lithium Batteries at Low Temperatures

Lai

Deng

Zhang

et al. 2023

ACS Appl. Mater. Interfaces

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Traditional lithium batteries cannot work well at low temperatures due to the sluggish desolvation process, which limits their applications in low-temperature fields. Among various previously reported approaches, solvation regulation of electrolytes is of great importance to overcome this obstacle. In this work, a tetrahydrofuran (THF)-based localized high-concentration electrolyte is reported, which possesses the advantages of a unique solvation structure and improved mobility, enabling a Li/lithium manganate (LMO) battery to cycle stably at room temperature (retains 85.9% after 300 cycles) and to work at a high rate (retains 69.0% at a 10C rate). Apart from that, this electrolyte demonstrates superior low-temperature performance, delivering over 70% capacity at −70 °C and maintaining 72.5 mAh g −1 (≈77.1%) capacity for 200 cycles at a 1C rate at −40 °C. Also, even when the rate increases to 5C, the battery could still operate well at −40 °C. This work demonstrates that solvation regulation has a significant impact on the kinetics of cells at low temperatures and provides a design method for future electrolyte design.

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A localized high concentration carboxylic ester-based electrolyte for high-voltage and low temperature lithium batteries

Lai

Huang

Deng

et al. 2023

Chemical Engineering Journal

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Tailored interface composition improves the integrity of electrode/electrolyte interphases for high-voltage Ni-rich lithium metal batteries in a sulfolane-based electrolyte

Deng

Lai

et al. 2023

Chemical Engineering Journal

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Xiaodie Deng

Anion-Containing Solvation Structure Reconfiguration Enables Wide-Temperature Electrolyte for High-Energy-Density Lithium-Metal Batteries

Mild and controllable solid electrolyte interphase formation for high-voltage lithium metal batteries in a wide-temperature range from −40 °C to 80 °C

Bifunctional Localized High-Concentration Electrolyte for the Fast Kinetics of Lithium Batteries at Low Temperatures

A localized high concentration carboxylic ester-based electrolyte for high-voltage and low temperature lithium batteries

Tailored interface composition improves the integrity of electrode/electrolyte interphases for high-voltage Ni-rich lithium metal batteries in a sulfolane-based electrolyte

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