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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TLDR
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
Citations
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Strengthening synergistic effects between hard carbon and soft carbon enabled by connecting precursors at molecular level towards high-performance potassium ion batteries
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Sb particles embedded in N-doped carbon spheres wrapped by graphene for superior K+−Storing performances
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Integrating Chemical Pre‐Potassiation with Pre‐Modulated KF‐Rich Electrolyte Interfaces for Dual‐Carbon Potassium Ion Hybrid Capacitor
TL;DR: In this paper , a chemical pre-potassiation strategy via simultaneously treating both glucose derived carbon (GDC) anode and commercial activated carbon (CAC) cathode in potassium-naphthalene-tetrahydrofuran solution is developed for potassium ion hybrid capacitor (PIHC).
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Reduced graphene oxide coated modified SnO2 forms excellent potassium storage properties
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TL;DR: In this article , SnO2 and Sn nanoparticles adhered to the surface of rGO (SnO2/Sn/rGO) applied as potassium ion batteries (KIBs) anode materials were synthesized via thermal reduction.
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MgO-template Synthesis of Hollow N/O Dual Doped Carbon Boxes as Extremely Stable Anode for Potassium Ion Batteries
Jianding Li,Yun Zheng,Wei Chen,Wenshuai Zhu,Yongyang Zhu,Hu Jun Zhao,Xiaozhi Bao,Liqing He,Linfeng Zhang +8 more
TL;DR: The abundant resources of potassium on the earth have prompted the researchers to develop the novel-concept potassium ion batteries (PIBs) with higher energy density as discussed by the authors , which are thought to be carbon-based materials.
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