AI Article Synopsis
- Sodium-ion capacitors (SICs) offer advantages like high energy density, high power density, low cost, and long lifespan, but are limited by the availability of effective capacitive cathodes.
- Researchers developed a compact, highly ordered graphene solid (HOGS) that serves as a capacitive cathode, achieving impressive performance metrics such as a volumetric capacity of 303 F/cm and excellent stability over 10,000 cycles.
- The innovative design of HOGS can be adapted for other metal-ion-based energy storage systems, indicating broad applicability in the future of electrochemical energy storage.
Article Abstract
As an emerging type of electrochemical energy storage devices, sodium-ion capacitors (SICs) are potentially capable of high energy density and high power density, as well as low cost and long lifespan. Unfortunately, the lack of high-performance capacitive cathodes that can fully couple with the well-developed battery-type anodes severely restricts the further development of SICs. Here, we develop a compact yet highly ordered graphene solid (HOGS), which combines the merits of high density and high porosity and, more attractively, possesses a highly ordered lamellar texture with low pore tortuosity. As the capacitive cathode of SICs, HOGS delivers a record-high volumetric capacity (303 F cm or 219 mA h cm at 0.05 A g), a superior rate capability (185 F cm or 139 mA h cm even at 10 A g), and an outstanding cycling stability (over 80% after 10 000 cycles). The material design and construction strategies reported here can be easily extended to other metal-ion-based energy storage technologies, exhibiting universal potentials in compact electrochemical energy storage systems.
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| http://dx.doi.org/10.1021/acsnano.9b03492 | DOI Listing |
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