This is because most conventional production methods for functional and technical flexible electronics and textiles have difficulties in terms of thermal and tactile comfort during operation and use. The development of flexible electronics has increased very rapidly in recent years. It also highlights some challenges and future research prospects for hydrogel-based electroluminescent devices. This review provides a comprehensive overview of various functional hydrogels that have been used for the development of electroluminescent devices. Various strategies have been developed and adapted to obtain functional hydrogels, and at the same time, high-performance electroluminescent devices have been fabricated based on these functional hydrogels. With their excellent flexibility and their remarkable electrical, adaptable mechanical and self-healing properties, functional hydrogels offer a wealth of insights and opportunities for the fabrication of electroluminescent devices that can be easily integrated into wearable electronics for various applications. Typically, electroluminescence devices produced by hydrogel-based materials are among the most notable flexible electronics. Flexible electronics have gained significant research attention in recent years due to their potential applications as smart and functional materials.
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