Using nanoscience to solve the issues that limit the development of a sustainable society is one of the most important topics at present. Sustainable polymers play an important role in the construction of a sustainable society, but its large-scale application is usually limited by the poor mechanical and shape-memory properties of the commonly used epoxy resin. The utilization of nanoarchitectures to improve the shape-memory performance of composite materials is an effective approach. Graphene, among the used reinforcement materials for epoxy resin, is undoubtedly a fascinating example. In this paper, the shape-memory and mechanical properties of graphene-modified epoxy resins are described respectively for different response types. In this mini-review, we present an overview of the research results of graphene nanoarchitectonics in the modification of shape-memory epoxy resin composites. Besides, this paper has reviewed the properties of different types of graphene/epoxy composites, looking forward to the development of graphene/epoxy composites and future prospects.

利用纳米科学解决限制可持续社会发展的问题是当前最重要的主题之一。可持续聚合物在建设可持续社会中起着重要作用，但其大规模应用通常受到常用环氧树脂不良的机械和形状记忆性能的限制。利用纳米结构改善复合材料的形状记忆性能是一种有效的方法。在用于环氧树脂的增强材料中，石墨烯无疑是一个令人着迷的例子。本文分别针对不同的响应类型描述了石墨烯改性环氧树脂的形状记忆和力学性能。在此迷你评论中，我们概述了石墨烯纳米建筑学在形状记忆环氧树脂复合材料改性中的研究成果。此外，本文综述了不同类型的石墨烯/环氧树脂复合材料的性能，期待石墨烯/环氧树脂复合材料的发展和未来的前景。