The wearable demand of modern electronic devices makes flexible and stretchable energy storage device urgently needed. Stretchable and flexible supercapacitors (SCs) are energy storage devices that provide ultrahigh power density while having long-term durability, high security, and electrochemical stability. Among different SCs electrode materials, CNTs and graphene-based materials exhibit great potential in terms of stretchable SCs due to its ultrahigh electrical conductivity, large specific surface area and good mechanical properties. In this review, the state-of-the-art process and achievements in the field of stretchable SCs enabled by CNTs and graphene are presented, which include the novel design strategy, mechanical and electrochemical properties. The final section highlights current challenges and future perspectives on research in this thriving field.

现代电子设备的可穿戴需求使得迫切需要柔性且可拉伸的能量存储设备。可伸缩的柔性超级电容器（SC）是能量存储设备，可提供超高功率密度，同时具有长期耐用性，高安全性和电化学稳定性。在不同的碳纳米管电极材料中，碳纳米管和石墨烯基材料因其超高的导电性，大的比表面积和良好的机械性能，在可拉伸碳纳米管方面显示出巨大的潜力。在这篇综述中，介绍了由碳纳米管和石墨烯实现的可拉伸碳纳米管领域的最新工艺和成就，其中包括新颖的设计策略，机械和电化学性能。