Abstract: With the rapid development of portable and wearable electronic products, flexible wearable energy-storage devices have gradually become a popular research field. Among them, one-dimensional electrochemical energy storage fabrics, such as fiber-based supercapacitors and lithium-ion batteries, have become one of the most promising directions due to their portability, flexibility, wear resistance, braidability, mechanical and electrical machinability. Two-dimensional materials, which have unique advantages in the research of new fiber-based energy storage fabrics for their special structures and properties. This paper expounds on the two-dimensional materials that have been used in fiber-based energy storage fabrics in recent years, and introduces the design and manufacturing process of various fiber-based energy storage devices. Then, the paper carries out an in-depth discussion on the influence of various weave structures on the overall energy storage characteristics of fabrics, and comprehensively introduced the research progress of fiber-based supercapacitors and lithium-ion batteries. In the end, the paper puts forward thoughts and prospects on the opportunities and challenges in this field.

Key words: two-dimensional materials; fiber-based; device design; weave structure; energy storage fabrics