1,3-Dioxolane: A Strategy to Improve Electrode Interfaces in Lithium Ion and Lithium-Sulfur Batteries

被引:24
作者
La Monaca, Andrea [1 ]
De Giorgio, Francesca [1 ]
Soavi, Francesca [1 ]
Tarquini, Gabriele [2 ]
Di Carli, Mariasole [3 ]
Prosini, Pier Paolo [3 ]
Arbizzani, Catia [1 ]
机构
[1] Univ Bologna, Alma Mater Studiorum, Dept Chem Giacomo Ciamician, Via F Selmi 2, I-40126 Bologna, Italy
[2] Univ Roma La Sapienza, Dept Basic & Appl Sci Engn, Via Antonio Scarpa 14-16, I-00161 Rome, Italy
[3] Italian Natl Agcy New Technol Energy & Sustainabl, ENEA, Casaccia Res Ctr, Via Anguillarese 301, I-00123 Rome, Italy
来源
CHEMELECTROCHEM | 2018年 / 5卷 / 09期
关键词
3-dioxolane; lithium/sulfur; LiNi0.5Mn1.5O4; 1,3-dioxolane; electropolymerization; lithium ion; ELECTROCHEMICAL-BEHAVIOR; CHALLENGES; CATHODE; POLYSULFIDE; LIFE;
D O I
10.1002/celc.201701348
中图分类号
O646 [电化学、电解、磁化学];
学科分类号
081704 ;
摘要
Batteries with increased specific energy will play a crucial role in future electrical energy. Indeed, high specific energy means increased driving ranges in electric vehicles and can also improve the efficient use of the renewable energy. Lithium batteries, including lithium ion batteries (LIBs), with a high specific energy can be achieved with the use of high-potential and/or high specific capacity cathodes. We exploit the ability of 1,3-dioxolane (DOL) to polymerize at voltages higher than 4 V to produce a protective polymer layer in situ on two different cathodes. Specifically, DOL was polymerized on high-voltage LiNi0.5Mn1.5O4, (LNMO) and on high-capacity sulfur electrodes in order to reduce the electrode/electrolyte interface reactivity of these cathode materials and to improve cycling performance.
引用
收藏
页码:1272 / 1278
页数:7
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