Supercapacitors are very exclusive among energy‐storage devices for the wearable and portable industry. Due to simplicity, abundance occurrence, good electrical conductivity, and rich redox states, metal sulfides have a significant impact in supercapacitor applications in the present decade. Sulfur is the anion, associated with metal cations, and provides substantial tunable electrochemical, electrical, physical, and chemical properties in metal sulfides. In addition, carbonaceous materials enhance the electrochemical characteristics of metal sulfides synergistically for supercapacitors. Fast and scalable synthesis and fabrication of the supercapacitor cell with low‐cost metal sulfides and heterostructures should be developed to achieve the potential applications of these hybrid glorious materials. Herein, the significant and critical discussion of metal sulfides synthesis and their hybrid with carbon electrode structures for supercapacitor applications is disclosed. The realistic synthesis of metal sulfides, basic charge storage phenomena to elaborate the electrode nature, electrochemical properties including a single electrode, and asymmetric and symmetric cells are demonstrated for comparative purposes. The market values and application of supercapacitors are also elaborated. Herein, a better understanding to fresh readers about metal sulfide hybrid electrode structures for supercapacitors is provided.

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超级电容器应用中含碳材料的金属硫化物的设计

在可穿戴和便携式行业的储能设备中，超级电容器是非常独特的。由于简单，数量丰富，良好的导电性和丰富的氧化还原态，在当前的十年中，金属硫化物对超级电容器的应用产生了重大影响。硫是与金属阳离子缔合的阴离子，并在金属硫化物中提供可调节的电化学，电，物理和化学性质。此外，含碳材料可协同增强超级电容器的金属硫化物的电化学特性。应开发具有低成本金属硫化物和异质结构的超级电容器电池的快速，可扩展的合成和制造方法，以实现这些混合光荣材料的潜在应用。在此处，公开了关于金属硫化物的合成及其与超级电容器应用中的碳电极结构的混合的重要和批判性讨论。为了比较，证明了金属硫化物的现实合成，阐述电极性质的基本电荷存储现象，包括单个电极的电化学特性以及不对称和对称电池。还阐述了超级电容器的市场价值和应用。在此，为新读者提供了关于用于超级电容器的金属硫化物混合电极结构的更好的理解。为了比较目的，证明了包括单个电极以及不对称和对称电池的电化学性质。还阐述了超级电容器的市场价值和应用。在此，为新读者提供了关于用于超级电容器的金属硫化物混合电极结构的更好的理解。为了比较目的，证明了包括单个电极以及不对称和对称电池的电化学性质。还阐述了超级电容器的市场价值和应用。在此，为新读者提供了关于用于超级电容器的金属硫化物混合电极结构的更好的理解。