2021
DOI: 10.1021/acs.energyfuels.1c00635
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Recent Advances in Rechargeable Li–CO2 Batteries

Abstract: Li−CO 2 batteries have attracted increasing attention recently due to their high discharging voltage (∼2.8 V) and large theoretical specific energy (1876 Wh kg −1 ). The conversion of CO 2 relieves its detrimental impact effect on the environment. Despite the aforementioned superiorities, practical Li−CO 2 batteries are still restricted by some issues, such as intricate multiphase interfacial reactions and intrinsic insulating characteristics of carbonate products. Here, reaction mechanisms based on CO 2 conve… Show more

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Cited by 62 publications
(47 citation statements)
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“…To fulfill the requirements in different scenarios, various electrolyte candidates have been developed and tested in Li-CO2 batteries, including liquid electrolytes (aqueous or organic-based), solid-state electrolytes (glass, ceramics, and polymers), hybrid electrolytes (liquid + solid), and ionic liquid electrolytes (e.g., 1-ethyl-3-methylimidazolium chloride) [10]. Although a great quantity of studies on Li-CO2 batteries are concentrated on organic-based liquid electrolytes, they still suffer from some intrinsic drawbacks in practical battery systems, such as the possible leakage, evaporation, and flammability for the semiopen cell structure [68]. Among the alternatives, solid-state or quasi-solid-state electrolytes can overcome the aforementioned obstacles and thus enhance the security; however, the large impedance of solid-solid interfaces between electrode and electrolyte leads to a relatively low ion conductivity and should be resolved before practical application.…”
Section: Challenges For the Liquid Electrolytementioning
confidence: 99%
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“…To fulfill the requirements in different scenarios, various electrolyte candidates have been developed and tested in Li-CO2 batteries, including liquid electrolytes (aqueous or organic-based), solid-state electrolytes (glass, ceramics, and polymers), hybrid electrolytes (liquid + solid), and ionic liquid electrolytes (e.g., 1-ethyl-3-methylimidazolium chloride) [10]. Although a great quantity of studies on Li-CO2 batteries are concentrated on organic-based liquid electrolytes, they still suffer from some intrinsic drawbacks in practical battery systems, such as the possible leakage, evaporation, and flammability for the semiopen cell structure [68]. Among the alternatives, solid-state or quasi-solid-state electrolytes can overcome the aforementioned obstacles and thus enhance the security; however, the large impedance of solid-solid interfaces between electrode and electrolyte leads to a relatively low ion conductivity and should be resolved before practical application.…”
Section: Challenges For the Liquid Electrolytementioning
confidence: 99%
“…The traditional lithium salts generally contain LiBF4, LiClO4, LiTFSI, lithium bis(fluorosulfonyl)imide (LiFSI), LiPF6, LiCF3SO3, etc. [68]. The state-of-the-art LiPF6 salt in Li ion batteries has been excluded in Li-CO2 batteries, however, because it is unstable with the attack of oxygen intermediates generated during redox reactions [73].…”
Section: The Problem Associated With the Saltsmentioning
confidence: 99%
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“…A typical type of Li-CO 2 battery consists of a porous cathode, electrolyte (liquid, solid), and lithium metal anode [17]. The basic structure is shown in Figure 2, in the form of coin cells from different points of view.…”
Section: The Structure Of a Li-co 2 Batterymentioning
confidence: 99%
“…As an emerging research topic, Li–CO 2 batteries have attracted more attention in recent studies. Sun et al . provide an overall view about the progress of the latest Li–CO 2 system, including the reaction mechanisms, catalytic cathodes, and electrolytes, along with innovative perspectives on future research.…”
Section: Othersmentioning
confidence: 99%