2025, Vol. 6, Issue 1, Part C
Organic electronics design and synthesis of π-conjugated polymers
Author(s): Chinki
Abstract: Organic electronics, driven by the development of π-conjugated polymers, presents a transformative approach to flexible, lightweight, and low-cost electronic devices. These polymers, characterized by delocalized π-electron systems along their backbones, exhibit unique optoelectronic properties crucial for applications such as organic photovoltaics (OPVs), field-effect transistors (OFETs), and light-emitting diodes (OLEDs). This research focuses on the strategic molecular design and synthesis of π-conjugated polymers to enhance charge transport, bandgap tuning, and processability. Through donor-acceptor architectures, side-chain engineering, and advanced polymerization techniques, it is possible to fine-tune the electronic structure and morphology of these materials. Despite their advantages, challenges remain in stability, reproducibility, and environmental sustainability. Addressing these through innovative synthetic pathways and structure-property optimization holds the key to advancing organic electronics. This study provides an integrated overview of recent progress, design principles, and synthesis strategies, emphasizing their impact on the future development of high-performance and eco-friendly organic electronic systems.
Pages: 190-195 | Views: 484 | Downloads: 239
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How to cite this article:
Chinki. Organic electronics design and synthesis of π-conjugated polymers. J Res Chem 2025;6(1):190-195.
