Due to its superior electronic, thermal, and mechanical properties, graphene is considered to be the most promising candidate for constructing energy storage and conversion devices. One important way to exploit the potential of graphene is to create graphene composites with other functional materials. Graphene-based hybrid composites (GHCs) have been fabricated by incorporating inorganic and/or organic species into graphene through covalent and/or noncovalent interactions. Different methods of fabrication resulted in different properties of GHCs. So far, GHCs have found wide applications in various sectors. In this article, recent progress and achievements in the preparation of two- and three-dimensional GHCs are reviewed, followed by detailed discussions on their physical, chemical, and mechanical properties. The article then focuses on the detailed applications of GHCs in energy storage and conversion devices.

中文翻译：

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用于高级储能和转换设备的二维和三维石墨烯基杂化复合材料

由于其优异的电子，热和机械性能，石墨烯被认为是构建能量存储和转换设备的最有希望的候选者。发挥石墨烯潜力的一种重要方法是用其他功能材料制造石墨烯复合材料。通过共价和/或非共价相互作用将无机和/或有机物质掺入石墨烯中来制造基于石墨烯的杂化复合材料（GHC）。不同的制造方法导致GHC的特性不同。到目前为止，GHC已在各个领域得到广泛应用。在本文中，回顾了二维和三维GHC制备的最新进展和成就，随后对其物理，化学和机械性能进行了详细讨论。