High-Performance Thick Cathode Based on Polyhydroxyalkanoate Binder for Li Metal Batteries

Authors
Kang, Dong HyukPark, MinhyuckLee, JeonghunKim, Chan YeolPark, JiminLee, Youn-KiHyun, Jong ChanHa, SonKwak, Jin HwanYoon, JuheeKim, HyeminKim, Hyun SooKim, Do HyunKim, SangminPark, Ji YongJang, RobinYang, Seung JaeLim, Hee-DaeCho, Se YounJin, Hyoung-JoonLee, SeungjinHwang, YunilYun, Young Soo
Issue Date
2024-02
Publisher
Springer Nature
Citation
Advanced Fiber Materials, v.6, no.1, pp.214 - 228
Abstract
Thick cathodes can overcome the low capacity issues, which mostly hamper the performance of the conventional active cathode materials, used in rechargeable Li batteries. However, the typical slurry-based method induces cracking and flaking during the fabrication of thick electrodes. In addition, a significant increase in the charge-transfer resistance and local current overload results in poor rate capabilities and cycling stabilities, thereby limiting electrode thickening. In this study, a synergistic dual-network combination strategy based on a conductive nanofibrillar network (CNN) and a nano-bridging amorphous polyhydroxyalkanoate (aPHA) binder is used to demonstrate the feasibility of constructing a high-performance thick cathode. The CNN and aPHA dual network facilitates the fabrication of a thick cathode (≥?250 μm thickness and?≥?90 wt% active cathode material) by a mass-producible slurry method. The thick cathode exhibited a high rate capability and excellent cycling stability. In addition, the thick cathode and thin Li metal anode pair (Li//t-NCM) exhibited an optimal energy performance, affording high-performance Li metal batteries with a high areal energy of?~?25.3 mW h cm?2, a high volumetric power density of?~?1720 W L?1, and an outstanding specific energy of?~?470 W h kg?1 at only 6 mA h cm?2.
Keywords
NI-RICH; ELECTRODE ARCHITECTURES; ENERGY-DENSITY; Thick cathode; Polyhydroxyalkanoate binder; Nano-bridging; Conductive nano-fibrillar network; Lithium metal battery
ISSN
2524-7921
URI
https://pubs.kist.re.kr/handle/201004/79686
DOI
10.1007/s42765-023-00347-8
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KIST Article > 2023
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