The Molecular Backbone: 3-(2-Hexyldecyl)thiophene in Modern Electronics
The performance of modern electronic devices, particularly those in the organic electronics sector, hinges on the intricate properties of their constituent molecules. 3-(2-hexyldecyl)thiophene, a key thiophene derivative with CAS number 1345699-92-4, serves as a fundamental building block in the creation of sophisticated materials for Organic Field-Effect Transistors (OFETs), Organic Light-Emitting Diodes (OLEDs), Polymer Light-Emitting Diodes (PLEDs), and Organic Photovoltaics (OPVs).
Its chemical structure, characterized by the formula C20H36S and a molecular weight of 308.56 g/mol, provides a unique molecular backbone that imparts desirable electronic and physical characteristics. As a manufacturer in China, our expertise in synthesizing these high-purity heterocyclic compounds ensures that our 3-(2-hexyldecyl)thiophene, with a purity of at least 97%, meets the stringent demands of advanced electronic material development.
The integration of 3-(2-hexyldecyl)thiophene into OFETs allows for enhanced charge transport, leading to faster switching speeds and improved transistor performance, which are critical for flexible electronics and advanced sensing applications. In the context of OLEDs and PLEDs, this specialized organic chemical contributes to efficient charge injection and recombination processes, resulting in displays with superior brightness, color purity, and longevity. The quest for better organic electronics materials is constant, and this compound is a key enabler.
Furthermore, its utility extends to the field of OPVs, where it functions as a component in the active layer to optimize light absorption and exciton diffusion, thereby boosting the overall energy conversion efficiency of solar cells. The development of new, cost-effective, and high-performance organic electronics materials is a major focus for the industry, and 3-(2-hexyldecyl)thiophene is at the forefront of this innovation.
As a reliable supplier, we are dedicated to supporting the scientific community by providing access to these vital materials. The price point reflects the advanced synthesis required for high purity, making it a strategic investment for groundbreaking research and commercial applications in the electronic materials sector. Partner with us to access the molecular backbone of future electronic innovations.
Its chemical structure, characterized by the formula C20H36S and a molecular weight of 308.56 g/mol, provides a unique molecular backbone that imparts desirable electronic and physical characteristics. As a manufacturer in China, our expertise in synthesizing these high-purity heterocyclic compounds ensures that our 3-(2-hexyldecyl)thiophene, with a purity of at least 97%, meets the stringent demands of advanced electronic material development.
The integration of 3-(2-hexyldecyl)thiophene into OFETs allows for enhanced charge transport, leading to faster switching speeds and improved transistor performance, which are critical for flexible electronics and advanced sensing applications. In the context of OLEDs and PLEDs, this specialized organic chemical contributes to efficient charge injection and recombination processes, resulting in displays with superior brightness, color purity, and longevity. The quest for better organic electronics materials is constant, and this compound is a key enabler.
Furthermore, its utility extends to the field of OPVs, where it functions as a component in the active layer to optimize light absorption and exciton diffusion, thereby boosting the overall energy conversion efficiency of solar cells. The development of new, cost-effective, and high-performance organic electronics materials is a major focus for the industry, and 3-(2-hexyldecyl)thiophene is at the forefront of this innovation.
As a reliable supplier, we are dedicated to supporting the scientific community by providing access to these vital materials. The price point reflects the advanced synthesis required for high purity, making it a strategic investment for groundbreaking research and commercial applications in the electronic materials sector. Partner with us to access the molecular backbone of future electronic innovations.
Perspectives & Insights
Agile Reader One
“In the context of OLEDs and PLEDs, this specialized organic chemical contributes to efficient charge injection and recombination processes, resulting in displays with superior brightness, color purity, and longevity.”
Logic Vision Labs
“The quest for better organic electronics materials is constant, and this compound is a key enabler.”
Molecule Origin 88
“Furthermore, its utility extends to the field of OPVs, where it functions as a component in the active layer to optimize light absorption and exciton diffusion, thereby boosting the overall energy conversion efficiency of solar cells.”