Abstract
Abstract This review explores the pivotal roles of two advanced nanotechnologies—electrospinning (ES) and fluorescent organic nano-dots (FONs) in the development and application of organoluminophores (OLs). As demand intensifies for innovative OL-based systems in fields such as biomedical imaging, drug delivery, materials engineering, sensing, and energy, ES and FONs present complementary yet distinct technological pathways. Each method offers unique advantages in optimizing material properties, compatibility, and optical performance, positioning them at the forefront of OL-based research. ES enables precise control over material structure, enhancing performance for scalable industrial applications. FONs deliver superior optical properties, particularly for bio-imaging, through environmentally friendly synthesis. This comparative analysis critically examines the strengths and limitations of both techniques, including aspects of synthesis complexity, material adaptability, functional enhancement, and industrial utilization. Furthermore, recent advancements, ongoing challenges, and future prospects within this rapidly evolving field are discussed, providing a comprehensive perspective on the potential of these luminescent technologies to drive next-generation OL applications. Graphical Abstract
Published Version
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