Self-Healing Nanofibers for Engineering Applications

The development of emerging technologies in a wide variety of distinctfields requires continuous innovation and implementation to advance civilization. Thegoal of this scientific scheme is tofind smart technological materials. Recent years haveseen an increase in attention to electrospinning, an electrostaticfiber fabrication method,owing to itsflexibility and possibility of utilizing it in thefields of manufacturing,biomedical, textile, and aerospace industry. Similarly, self-healing materials have fascinatedmany researchers recently due to their effectiveness in improving the durability ofmaterials and products. The concept of self-healing is a fresh perspective for advanced andresponsive materials. They can be fabricated to mimic the healing ability of biologicalorganisms, and therefore, can automatically and instantly repair damaged parts.Integrating electrospun nanofiber (0.01 to 10 mu m diameter range) with a self-healingmechanism is applicable in various engineering applications. Core/shell nanofibers havebeen recently used in advanced composites to induce self-healing and to enhance material reinforcement.

Automated summary

Continuous innovation and implementation are required for the development of emerging technologies in various fields to advance civilization. Electrospinning and self-healing materials have attracted increasing attention in recent years, showing great potential for applications in manufacturing, biomedical, textile, aerospace industries, and beyond. These technologies have the ability to mimic biological organisms' healing abilities, automatically repairing damaged parts and enhancing material reinforcement in advanced composites.