Revealing the Sodium Storage Mechanism in High-Temperature-Synthesized Silicon Oxycarbides

Authors
Chandra, ChristianCahyadi, Handi SetiadiAlvin, StevanusDevina, WindaPark, Jae-HoChang, WonyoungChung, Kyung YoonKwak, Sang KyuKim, Jaehoon
Issue Date
2020-01-14
Publisher
AMER CHEMICAL SOC
Citation
CHEMISTRY OF MATERIALS, v.32, no.1, pp.410 - 423
Abstract
Silicon oxycarbides (SiOCs) are considered promising anode materials for sodium-ion batteries. However, the mechanisms of Nation storage in SiOCs are not clear. In this study, the mechanism of Nation storage in high-temperature-synthesized SiOCs (1200-1400 degrees C) is examined. Phase separation of the oxygen (O)-rich and carbon (C)-rich SiOxCy domains of SiOC during synthesis was accompanied by the evolution of micropores, graphitic layers, and a silicon carbide (SiC) phase. The high-temperature-synthesized SiOCs exhibited a large voltage plateau capacity below 0.1 V (45-63% of the total capacity). Ex situ measurements and density functional theory simulations revealed that within the sloping voltage region, Nation uptake occurs mainly in the defects, micropores, C-rich SiOxCy phase, and some O-rich SiOxCy phases. In contrast, in the voltage plateau below 0.1 V, Na+-ion insertion into the O-rich SiOxCy phase and formation of Na-rich Si compounds are the main Nation uptake mechanisms. The generated SiC phase confers excellent long-term cyclability to the high-temperature-synthesized SiOxCy.
Keywords
HARD CARBON ANODES; NA-ION BATTERIES; HIGH-PERFORMANCE ANODE; RICH SIOC ANODES; AMORPHOUS-SILICON; HIGH-CAPACITY; ELECTROCHEMICAL PERFORMANCE; LITHIUM STORAGE; COMPOSITE ANODE; STABLE ANODE; HARD CARBON ANODES; NA-ION BATTERIES; HIGH-PERFORMANCE ANODE; RICH SIOC ANODES; AMORPHOUS-SILICON; HIGH-CAPACITY; ELECTROCHEMICAL PERFORMANCE; LITHIUM STORAGE; COMPOSITE ANODE; STABLE ANODE
ISSN
0897-4756
URI
https://pubs.kist.re.kr/handle/201004/119089
DOI
10.1021/acs.chemmater.9b04018
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KIST Article > 2020
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