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Autori principali: Tianhua Chen, Yongzheng Zhang, Simeng Wang, Jin Li, Hongzhen Lin, Dusan Losic, Shimou Chen, Jian Wang
Natura: Artículo Open Access
Pubblicazione: Wiley 2025
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Accesso online:https://chemistry-europe.onlinelibrary.wiley.com/doi/10.1002/cssc.202501351
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author Tianhua Chen
Yongzheng Zhang
Simeng Wang
Jin Li
Hongzhen Lin
Dusan Losic
Shimou Chen
Jian Wang
author_facet Tianhua Chen
Yongzheng Zhang
Simeng Wang
Jin Li
Hongzhen Lin
Dusan Losic
Shimou Chen
Jian Wang
Tianhua Chen
Yongzheng Zhang
Simeng Wang
Jin Li
Hongzhen Lin
Dusan Losic
Shimou Chen
Jian Wang
collection Wiley Open Access
contents Interfacial Li + Diffusion Booster Accelerated by Enhanced Metal‐Organic Framework Sieving and Wettability for High‐Voltage Solid‐State Lithium Metal Batteries Tianhua Chen Yongzheng Zhang Simeng Wang Jin Li Hongzhen Lin Dusan Losic Shimou Chen Jian Wang ChemSusChem Solid‐state lithium metal batteries (SSLMBs) are promising for realizing higher energy density. However, the poor interfacial Li + transport kinetics and Li dendrite growth inhibit SSLMBs, leading to sluggish interfacial ion diffusion and depressive lifespan, which is attributed to high barriers blocked by anions or interface space in solid‐state electrolytes. Herein, a flexible solid‐state polymer skeleton employed with ionic liquid and metal‐organic frameworks (PIM) electrolyte is proposed to strengthen interfacial Li ion exchange by improving the Li + sieving effect and interfacial wettability. Thanks to the immobilization effect of TFSI − anions affected by positive metal atom centers and pore morphology, the PIM electrolyte exhibits exceptional properties, i.e., a high ionic conductivity up to 3.1 mS cm −1 at 60 °C and an improved Li + transference number of 0.65, enabling symmetric cells of Li metal to run steadily for over 1000 h with lower voltage hysteresis (25 mV). Meanwhile, matching with high‐voltage electrodes, the solid‐state PIM electrolyte exhibits good compatibility and stability toward LiNi 0.6 Co 0.2 Mn 0.2 O 2 and LiFePO 4 electrodes, showing the capacity retentions of 85.5% and 96.5% after 120 and 400 cycles, respectively. This work suggests low interfacial diffusion resistances and high compatibility for make it a promising candidate for future solid‐state battery. 10.1002/cssc.202501351 http://creativecommons.org/licenses/by/4.0/
doi_str_mv 10.1002/cssc.202501351
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institution Wiley Open Access
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publishDate 2025
publisher Wiley
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spellingShingle Interfacial Li + Diffusion Booster Accelerated by Enhanced Metal‐Organic Framework Sieving and Wettability for High‐Voltage Solid‐State Lithium Metal Batteries
Tianhua Chen
Yongzheng Zhang
Simeng Wang
Jin Li
Hongzhen Lin
Dusan Losic
Shimou Chen
Jian Wang
ChemSusChem
Interfacial Li + Diffusion Booster Accelerated by Enhanced Metal‐Organic Framework Sieving and Wettability for High‐Voltage Solid‐State Lithium Metal Batteries Tianhua Chen Yongzheng Zhang Simeng Wang Jin Li Hongzhen Lin Dusan Losic Shimou Chen Jian Wang ChemSusChem Solid‐state lithium metal batteries (SSLMBs) are promising for realizing higher energy density. However, the poor interfacial Li + transport kinetics and Li dendrite growth inhibit SSLMBs, leading to sluggish interfacial ion diffusion and depressive lifespan, which is attributed to high barriers blocked by anions or interface space in solid‐state electrolytes. Herein, a flexible solid‐state polymer skeleton employed with ionic liquid and metal‐organic frameworks (PIM) electrolyte is proposed to strengthen interfacial Li ion exchange by improving the Li + sieving effect and interfacial wettability. Thanks to the immobilization effect of TFSI − anions affected by positive metal atom centers and pore morphology, the PIM electrolyte exhibits exceptional properties, i.e., a high ionic conductivity up to 3.1 mS cm −1 at 60 °C and an improved Li + transference number of 0.65, enabling symmetric cells of Li metal to run steadily for over 1000 h with lower voltage hysteresis (25 mV). Meanwhile, matching with high‐voltage electrodes, the solid‐state PIM electrolyte exhibits good compatibility and stability toward LiNi 0.6 Co 0.2 Mn 0.2 O 2 and LiFePO 4 electrodes, showing the capacity retentions of 85.5% and 96.5% after 120 and 400 cycles, respectively. This work suggests low interfacial diffusion resistances and high compatibility for make it a promising candidate for future solid‐state battery. 10.1002/cssc.202501351 http://creativecommons.org/licenses/by/4.0/
title Interfacial Li + Diffusion Booster Accelerated by Enhanced Metal‐Organic Framework Sieving and Wettability for High‐Voltage Solid‐State Lithium Metal Batteries
topic ChemSusChem
url https://chemistry-europe.onlinelibrary.wiley.com/doi/10.1002/cssc.202501351