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Li metal battery, heal thyself
Science, 2018Intermittent high-current pulses prevent battery ...
Amartya, Mukhopadhyay, Manoj K, Jangid
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Advanced Energy Materials, 2021
The development of high‐performance Li‐metal batteries (LMBs) requires advanced electrolytes that simultaneously possess high safety, high ionic conductivity, wide electrochemical window, and good ability to suppress Li dendrite growth.
Zhicheng Wang +11 more
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The development of high‐performance Li‐metal batteries (LMBs) requires advanced electrolytes that simultaneously possess high safety, high ionic conductivity, wide electrochemical window, and good ability to suppress Li dendrite growth.
Zhicheng Wang +11 more
semanticscholar +1 more source
A Bioinspired Coating for Stabilizing Li Metal Batteries
ACS Applied Materials & Interfaces, 2022With plenty of charges and rich functional groups, bovine serum albumin (BSA) protein provides effective transport for multiple metallic ions inside blood vessels. Inspired by the unique ionic transport function, we develop a BSA protein coating to stabilize Li anode, regulate Li+ transport, and resolve the Li dendrite growth for Li metal batteries ...
Chenxu Wang +6 more
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Advances in Materials, 2023
Lithium (Li)‐based batteries are gradually evolving from the liquid to the solid state in terms of safety and energy density, where all solid‐state Li–metal batteries (ASSLMBs) are considered the most promising candidates.
Xiaoxue Wu +4 more
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Lithium (Li)‐based batteries are gradually evolving from the liquid to the solid state in terms of safety and energy density, where all solid‐state Li–metal batteries (ASSLMBs) are considered the most promising candidates.
Xiaoxue Wu +4 more
semanticscholar +1 more source
Electrolyte design for Li metal-free Li batteries
Materials Today, 2020Abstract Li metal, with the lowest thermodynamically achievable negative electrochemical potential and the highest specific capacity (3860 mAh g−1), is the ultimate anode choice for Li batteries. However, the highest reported Li plating/stripping Coulombic efficiency (CE) of 99.5% after extensive efforts is still too low for the Li metal-free (all ...
Ji Chen +5 more
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Advanced Materials, 2022
AbstractThe creation of fluorinated interphase has emerged as an effective strategy for improving Li‐metal anodes for rechargeable high‐energy batteries. In contrast to the introduction of fluorine‐containing species through widely adopted electrolyte engineering, a Li‐metal composite design is reported in which LiF can locally redistribute on the Li ...
Guocheng Li +10 more
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AbstractThe creation of fluorinated interphase has emerged as an effective strategy for improving Li‐metal anodes for rechargeable high‐energy batteries. In contrast to the introduction of fluorine‐containing species through widely adopted electrolyte engineering, a Li‐metal composite design is reported in which LiF can locally redistribute on the Li ...
Guocheng Li +10 more
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Eco-friendly electrolytes via robust bond design for high-energy Li-metal batteries
Energy & Environmental Science, 2022The electrolyte innovation that enables the formation of anion-derived inorganic-rich solid electrolyte interphase (SEI) on electrodes and possesses wide electrochemical stability is critical for Li metal batteries (LMBs) commercialization.
Yiqiang Huang +12 more
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Asymmetric behaviour of Li/Li symmetric cells for Li metal batteries
Chemical Communications, 2019The asymmetric behaviour of Li metal electrodes in Li/Li symmetric cells is demonstrated in terms of electrochemical performance and changes in the morphology of Li metal.
Dongho Koo +3 more
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Garnet Solid Electrolyte Protected Li-Metal Batteries
ACS Applied Materials & Interfaces, 2017Garnet-type solid state electrolyte (SSE) is a promising candidate for high performance lithium (Li)-metal batteries due to its good stability and high ionic conductivity. One of the main challenges for garnet solid state batteries is the poor solid-solid contact between the garnet and electrodes, which results in high interfacial resistance, large ...
Boyang Liu +9 more
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2019
Polymer electrolytes are of prime importance for advanced lithium-based batteries in terms of high-energy density, design flexibility and safety. In this chapter, we summarize the fundamental property requirements of materials for polymer electrolyte application. State of the art polymer hosts, salts and additives are reviewed along with the challenges
Ismael Gracia +2 more
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Polymer electrolytes are of prime importance for advanced lithium-based batteries in terms of high-energy density, design flexibility and safety. In this chapter, we summarize the fundamental property requirements of materials for polymer electrolyte application. State of the art polymer hosts, salts and additives are reviewed along with the challenges
Ismael Gracia +2 more
openaire +1 more source