Gu, S., Ma, X., Chen, J., Hao, R., Wang, Z., Qin, N., Zheng, W., Gan, Q., Luo, W., Li, M., Li, Z., Liao, K., Guo, H., Liu, G., Zhang, K., & Lu, Z. (2022). Regulating the radical intermediates by conjugated units in covalent organic frameworks for optimized lithium ion storage. Journal of Energy Chemistry, 69, 428-433. https://doi.org/10.1016/j.jechem.2022.01.005
Gu, Shuai ; Ma, Xiaoxia ; Chen, Jingjing 等. / Regulating the radical intermediates by conjugated units in covalent organic frameworks for optimized lithium ion storage. 在: Journal of Energy Chemistry. 2022 ; 卷 69. 页码 428-433.
@article{c2dee56bad0b46a3a23e6e3f84c1832b,
title = "Regulating the radical intermediates by conjugated units in covalent organic frameworks for optimized lithium ion storage",
abstract = "Organic active units often transform into radical intermediates during the redox processes but exhibit poor cycling stability due to the uncontrollable redox of the radicals. Herein, we report a facile and efficient strategy to modulate the molecular orbital energies, charge transport capacities, and spin electron densities of the active units in covalent organic frameworks (COFs) via regulating the conjugated unit size to optimize the redox activity and stability of the organic radicals. COFs based on different imide conjugated units exhibit tunable discharge voltages, rate performance and cycling stabilities. Detailed characterizations and theoretical calculation reveal that imide radicals are the important active intermediates during the redox processes of these COFs. Specifically, increasing the size of the imide conjugated units could effectively delocalize the radical electrons and improve the stability of the COFs electrodes. This study offers a very effective strategy to modulate the redox chemistry of organic materials for electrochemical energy storage.",
keywords = "Covalent organic frameworks, Organic electrodes, Radical intermediates",
author = "Shuai Gu and Xiaoxia Ma and Jingjing Chen and Rui Hao and Zhiqiang Wang and Ning Qin and Wei Zheng and Qingmeng Gan and Wen Luo and Muqing Li and Zhiqiang Li and Kemeng Liao and Hao Guo and Guiyu Liu and Kaili Zhang and Zhouguang Lu",
note = "Publisher Copyright: {\textcopyright} 2022",
year = "2022",
month = jun,
doi = "10.1016/j.jechem.2022.01.005",
language = "English",
volume = "69",
pages = "428--433",
journal = "Journal of Energy Chemistry",
issn = "2095-4956",
publisher = "Elsevier B.V.",
}
Gu, S, Ma, X, Chen, J, Hao, R, Wang, Z, Qin, N, Zheng, W, Gan, Q, Luo, W, Li, M, Li, Z, Liao, K, Guo, H, Liu, G, Zhang, K & Lu, Z 2022, 'Regulating the radical intermediates by conjugated units in covalent organic frameworks for optimized lithium ion storage', Journal of Energy Chemistry, 卷 69, 页码 428-433. https://doi.org/10.1016/j.jechem.2022.01.005
Regulating the radical intermediates by conjugated units in covalent organic frameworks for optimized lithium ion storage. / Gu, Shuai
; Ma, Xiaoxia; Chen, Jingjing 等.
在:
Journal of Energy Chemistry, 卷 69, 06.2022, 页码 428-433.
科研成果: 期刊稿件 › 文章 › 同行评审
TY - JOUR
T1 - Regulating the radical intermediates by conjugated units in covalent organic frameworks for optimized lithium ion storage
AU - Gu, Shuai
AU - Ma, Xiaoxia
AU - Chen, Jingjing
AU - Hao, Rui
AU - Wang, Zhiqiang
AU - Qin, Ning
AU - Zheng, Wei
AU - Gan, Qingmeng
AU - Luo, Wen
AU - Li, Muqing
AU - Li, Zhiqiang
AU - Liao, Kemeng
AU - Guo, Hao
AU - Liu, Guiyu
AU - Zhang, Kaili
AU - Lu, Zhouguang
N1 - Publisher Copyright:
© 2022
PY - 2022/6
Y1 - 2022/6
N2 - Organic active units often transform into radical intermediates during the redox processes but exhibit poor cycling stability due to the uncontrollable redox of the radicals. Herein, we report a facile and efficient strategy to modulate the molecular orbital energies, charge transport capacities, and spin electron densities of the active units in covalent organic frameworks (COFs) via regulating the conjugated unit size to optimize the redox activity and stability of the organic radicals. COFs based on different imide conjugated units exhibit tunable discharge voltages, rate performance and cycling stabilities. Detailed characterizations and theoretical calculation reveal that imide radicals are the important active intermediates during the redox processes of these COFs. Specifically, increasing the size of the imide conjugated units could effectively delocalize the radical electrons and improve the stability of the COFs electrodes. This study offers a very effective strategy to modulate the redox chemistry of organic materials for electrochemical energy storage.
AB - Organic active units often transform into radical intermediates during the redox processes but exhibit poor cycling stability due to the uncontrollable redox of the radicals. Herein, we report a facile and efficient strategy to modulate the molecular orbital energies, charge transport capacities, and spin electron densities of the active units in covalent organic frameworks (COFs) via regulating the conjugated unit size to optimize the redox activity and stability of the organic radicals. COFs based on different imide conjugated units exhibit tunable discharge voltages, rate performance and cycling stabilities. Detailed characterizations and theoretical calculation reveal that imide radicals are the important active intermediates during the redox processes of these COFs. Specifically, increasing the size of the imide conjugated units could effectively delocalize the radical electrons and improve the stability of the COFs electrodes. This study offers a very effective strategy to modulate the redox chemistry of organic materials for electrochemical energy storage.
KW - Covalent organic frameworks
KW - Organic electrodes
KW - Radical intermediates
UR - http://www.scopus.com/inward/record.url?scp=85125557294&partnerID=8YFLogxK
U2 - 10.1016/j.jechem.2022.01.005
DO - 10.1016/j.jechem.2022.01.005
M3 - Article
AN - SCOPUS:85125557294
SN - 2095-4956
VL - 69
SP - 428
EP - 433
JO - Journal of Energy Chemistry
JF - Journal of Energy Chemistry
ER -
Gu S, Ma X, Chen J, Hao R, Wang Z, Qin N 等. Regulating the radical intermediates by conjugated units in covalent organic frameworks for optimized lithium ion storage. Journal of Energy Chemistry. 2022 6月;69:428-433. doi: 10.1016/j.jechem.2022.01.005
