The Role of Hybrid Materials in Electronics and Photonics

Abstract

Hybrid materials have emerged as a transformative class of materials that combine organic and inorganic components to deliver unique electrical, optical, and mechanical properties. Their tunable structure allows for efficient charge transport, light manipulation, and enhanced device performance. This paper explores the synthesis, structure, and application of hybrid materials in modern electronics and photonics, highlighting their potential to revolutionize the development of flexible devices, sensors, and optoelectronic systems. The review also discusses fabrication challenges and future trends toward scalable and sustainable technologies.