Hard–Soft Composite Carbon as a Long-Cycling and High-Rate Anode for Potassium-Ion Batteries
Zelang Jian,Sooyeon Hwang,Zhifei Li,Alexandre S. Hernandez,Xingfeng Wang,Zhenyu Xing,Dong Su,Xiulei Ji +7 more
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In this paper, nongraphitic carbons as K-ion anodes with sodium carboxymethyl cellulose as the binder are systematically investigated, and a hard-soft composite carbon with 20 wt% soft carbon distributed in the matrix phase of hard carbon microspheres exhibits highly amenable performance: high capacity, high rate capability, and very stable long-term cycling.Abstract:
There exist tremendous needs for sustainable storage solutions for intermittent renewable energy sources, such as solar and wind energy. Thus, systems based on Earth-abundant elements deserve much attention. Potassium-ion batteries represent a promising candidate because of the abundance of potassium resources. As for the choices of anodes, graphite exhibits encouraging potassium-ion storage properties; however, it suffers limited rate capability and poor cycling stability. Here, nongraphitic carbons as K-ion anodes with sodium carboxymethyl cellulose as the binder are systematically investigated. Compared to hard carbon and soft carbon, a hard–soft composite carbon with 20 wt% soft carbon distributed in the matrix phase of hard carbon microspheres exhibits highly amenable performance: high capacity, high rate capability, and very stable long-term cycling. In contrast, pure hard carbon suffers limited rate capability, while the capacity of pure soft carbon fades more rapidly.read more
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Bismuthene from sonoelectrochemistry as a superior anode for potassium-ion batteries
Chao Shen,Tianle Cheng,Chunyan Liu,Lu Huang,Mengyang Cao,Ganqiang Song,Dong Wang,Bingan Lu,Jianwen Wang,Chichu Qin,Xingkang Huang,Ping Peng,Xilong Li,Yingpeng Wu +13 more
TL;DR: In this paper, an ultrasonication-assisted electrochemical exfoliation method was proposed to prepare ultra-thin few layered bismuthene nanosheets (FBNs) simply and quickly.
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Sulfur nanocomposite as a positive electrode material for rechargeable potassium-sulfur batteries
TL;DR: A pyrolyzed polyacrylonitrile/sulfur nanocomposite (SPAN) was used as a positive electrode material for a room temperature K-S battery operated in carbonate electrolyte and presented a high reversible capacity and excellent rate performance, which demonstrate that it is a promising positive electrodes material for K-ion and K-batteries.
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Engineering Mesoporous Structure in Amorphous Carbon Boosts Potassium Storage with High Initial Coulombic Efficiency
TL;DR: A facile self-etching strategy was used to obtain mesoporous carbon (meso-C) nanowires with zinc-catalyzed short-range ordered structure, and a new perspective is provided that mesopores engineering can effectively accelerate K + diffusion and enhance K + adsorption/intercalation storage.
Journal ArticleDOI
Freestanding CNT-modified graphitic carbon foam as a flexible anode for potassium ion batteries
Sifan Zeng,Sifan Zeng,Xuefeng Zhou,Bin Wang,Yuezhan Feng,Rui Xu,Haibin Zhang,Shuming Peng,Shuming Peng,Yan Yu,Yan Yu +10 more
TL;DR: In this article, a carbon nanotube modified graphitic carbon foam (CNTs/GCF) with 3D porous interconnected nano-architecture was designed to boost the cyclability and rate performance of KIBs.
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Correlation between the microstructure of carbon materials and their potassium ion storage performance
TL;DR: In this paper, electrospun carbon nanofibers are employed as model materials to explore the K-ion storage behaviors in carbon with representative microstructures, and three active sites have been unveiled, including (i) uptake of Kion by defect sites; (ii) K ions adsorption on isolated graphene sheets in partially disordered carbon; (iii) k ions intercalation between graphene layers for carbon with a high degree of graphitization.
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