Abstract Recently, the research effort on two-dimensional transition metal dichalcogenides/graphene (2D-TMDs/Gr) hybrids has grown. These hybrids are emerging as a promising strategy for the preparation of advanced multifunctional materials with effectively upgraded properties, as well as performances. Due to their outstanding electrical, physical, and chemical properties, these materials have been extensively considered for various applications, both in academia, and industry. This review systematically assesses the important progress to date in the development of 2D-TMDs/Gr hybrids. The synthesis methods of 2D-TMDs/Gr hybrids for fabricating diverse types of nanostructured architectures are highlighted. In addition, the relationships between morphological and structural characteristics, and the physicochemical properties of 2D-TMDs/Gr hybrids, are recognized in detail. This review also discusses recent prospective applications of the 2D-TMDs/Gr hybrids in the areas of energy storage, energy conversion, energy harvesting technologies, and sensors. In summary, although there are still challenges for optimizing the synthesis process and performance of the 2D-TMDs/Gr hybrids, they offer unique candidates for a wide range of promising applications in the future.

中文翻译：

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用于电化学应用的二维过渡金属二硫属化物-石墨烯异质结构材料的最新进展

摘要 最近，二维过渡金属二硫属化物/石墨烯 (2D-TMDs/Gr) 杂化物的研究工作不断发展。这些杂化物正在成为制备具有有效升级性能和性能的先进多功能材料的有前途的策略。由于其出色的电气、物理和化学性能，这些材料已被广泛考虑用于学术界和工业界的各种应用。本综述系统地评估了迄今为止在 2D-TMDs/Gr 混合动力车开发方面取得的重要进展。重点介绍了用于制造各种类型纳米结构的 2D-TMDs/Gr 杂化物的合成方法。此外，形态和结构特征之间的关系，以及二维-TMDs/Gr 杂种的理化性质，被详细识别。本综述还讨论了 2D-TMDs/Gr 混合动力车在能量存储、能量转换、能量收集技术和传感器领域的近期应用前景。总之，尽管在优化 2D-TMDs/Gr 杂化物的合成过程和性能方面仍然存在挑战，但它们为未来广泛的有前景的应用提供了独特的候选者。