Gas Evolution Kinetics in Overlithiated Positive Electrodes and its Impact on Electrode Design

被引:0
|
作者
Song, Munsoo [1 ]
Lee, Danwon [1 ]
Kim, Juwon [1 ]
Choi, Subin [1 ]
Na, Ikcheon [1 ]
Seo, Sungjae [1 ]
Jo, Sugeun [2 ]
Jo, Chiho [3 ]
Lim, Jongwoo [1 ,4 ]
机构
[1] Seoul Natl Univ, Dept Chem, 1 Gwanak Ro, Seoul 08826, South Korea
[2] Pohang Accelerator Lab, 80 Jigok Ro, Pohang 37673, South Korea
[3] LG Energy Solut R&D Ctr, 188 Munji Ro, Daejeon 34122, South Korea
[4] Seoul Natl Univ, Inst Appl Phys, 1 Gwanak Ro, Seoul 08826, South Korea
基金
新加坡国家研究基金会;
关键词
electrode systems; gas evolution; kinetics; overlithiated positive electrodes; singlet oxygen; LITHIUM; OXIDATION; OXIDES;
D O I
10.1002/advs.202400568
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
Increasing lithium contents within the lattice of positive electrode materials is projected in pursuit of high-energy-density batteries. However, it intensifies the release of lattice oxygen and subsequent gas evolution during operations. This poses significant challenges for managing internal pressure of batteries, particularly in terms of the management of gas evolution in composite electrodes-an area that remains largely unexplored. Conventional assumptions postulate that the total gas evolution is estimated by multiplying the total particle count by the quantities of gas products from an individual particle. Contrarily, this investigation on overlithiated materials-a system known to release the lattice oxygen-demonstrates that loading densities and inter-particle spacing in electrodes significantly govern gas evolution rates, leading to distinct extents of gas formation despite of an equivalent quantity of released lattice oxygen. Remarkably, this study discoveres that O2 and CO2 evolution rates are proportional to 1O2 concentration by the factor of second and first-order, respectively. This indicates an exceptionally greater change in the evolution rate of O2 compared to CO2 depending on local 1O2 concentration. These insights pave new routes for more sophisticated approaches to manage gas evolution within high-energy-density batteries. This study explores the impact of electrode configuration on gas evolution in high-energy-density batteries, Inter-particle spacing depending on electrode loading densities significantly impacts the extent of O2 and CO2 evolution. This phenomena is attributed to the proportional relationships between O2 and CO2 evolution rates and 1O2 concentration. This provides insights for managing gas evolution in composite electrodes for enhanced performance. image
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页数:8
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