Carbon Nanocluster‐Mediated Nanoblending Assembly for Binder‐Free Energy Storage Electrodes with High Capacities and Enhanced Charge Transfer Kinetics

Yongkwon Song; Woojin Bae; Jeongyeon Ahn; Youhyun Son; Minseong Kwon; Cheong Hoon Kwon; Younghoon Kim; Yongmin Ko; Jinhan Cho

doi:10.1002/advs.202301248

Advanced Science (Aug 2023)

Carbon Nanocluster‐Mediated Nanoblending Assembly for Binder‐Free Energy Storage Electrodes with High Capacities and Enhanced Charge Transfer Kinetics

Yongkwon Song,
Woojin Bae,
Jeongyeon Ahn,
Youhyun Son,
Minseong Kwon,
Cheong Hoon Kwon,
Younghoon Kim,
Yongmin Ko,
Jinhan Cho

Affiliations

Yongkwon Song: Department of Chemical and Biological Engineering Korea University 145 Anam‐ro, Seongbuk‐gu Seoul 02841 Republic of Korea
Woojin Bae: Department of Chemical and Biological Engineering Korea University 145 Anam‐ro, Seongbuk‐gu Seoul 02841 Republic of Korea
Jeongyeon Ahn: Department of Chemical and Biological Engineering Korea University 145 Anam‐ro, Seongbuk‐gu Seoul 02841 Republic of Korea
Youhyun Son: Department of Chemical and Biological Engineering Korea University 145 Anam‐ro, Seongbuk‐gu Seoul 02841 Republic of Korea
Minseong Kwon: Department of Chemical and Biological Engineering Korea University 145 Anam‐ro, Seongbuk‐gu Seoul 02841 Republic of Korea
Cheong Hoon Kwon: Department of Energy Resources and Chemical Engineering Kangwon National University 346 Jungang‐ro Samcheok 25913 Republic of Korea
Younghoon Kim: Department of Chemistry Kookmin University 77 Jeongneung‐ro, Seongbuk‐gu Seoul 02707 Republic of Korea
Yongmin Ko: Division of Energy Technology Materials Research Institute Daegu Gyeongbuk Institute of Science and Technology (DGIST) 333 Techno Jungang‐daero, Hyeonpung‐eup, Dalseong‐gun Daegu 42988 Republic of Korea
Jinhan Cho: Department of Chemical and Biological Engineering Korea University 145 Anam‐ro, Seongbuk‐gu Seoul 02841 Republic of Korea

DOI: https://doi.org/10.1002/advs.202301248
Journal volume & issue: Vol. 10, no. 22
pp. n/a – n/a

Abstract

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Abstract The effective spatial distribution and arrangement of electrochemically active and conductive components within metal oxide nanoparticle (MO NP)‐based electrodes significantly impact their energy storage performance. Unfortunately, conventional electrode preparation processes have much difficulty addressing this issue. Herein, this work demonstrates that a unique nanoblending assembly based on favorable and direct interfacial interactions between high‐energy MO NPs and interface‐modified carbon nanoclusters (CNs) notably enhances the capacities and charge transfer kinetics of binder‐free electrodes in lithium‐ion batteries (LIBs). For this study, carboxylic acid (COOH)‐functionalized carbon nanoclusters (CCNs) are consecutively assembled with bulky ligand‐stabilized MO NPs through ligand‐exchange‐induced multidentate binding between the COOH groups of CCNs and the surface of NPs. This nanoblending assembly homogeneously distributes conductive CCNs within densely packed MO NP arrays without insulating organics (i.e., polymeric binders and/or ligands) and prevents the aggregation/segregation of electrode components, thus markedly reducing contact resistance between neighboring NPs. Furthermore, when these CCN‐mediated MO NP electrodes are formed on highly porous fibril‐type current collectors (FCCs) for LIB electrodes, they deliver outstanding areal performance, which can be further improved through simple multistacking. The findings provide a basis for better understanding the relationship between interfacial interaction/structures and charge transfer processes and for developing high‐performance energy storage electrodes.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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