Understanding the Properties of 3-(2-Hexyldecyl)thiophene for Electronic Applications
The performance of advanced electronic devices is intrinsically linked to the molecular properties of the materials used in their fabrication. 3-(2-hexyldecyl)thiophene, a prominent thiophene derivative with the CAS number 1345699-92-4, is a high-purity chemical that offers a unique combination of characteristics essential for applications in Organic Field-Effect Transistors (OFETs), Organic Light-Emitting Diodes (OLEDs), Polymer Light-Emitting Diodes (PLEDs), and Organic Photovoltaics (OPVs).
With a molecular formula of C20H36S and a molecular weight of 308.56 g/mol, this specialized organic chemistry chemical is distinguished by its high purity, typically a minimum of 97%. This level of purity is critical, as even trace impurities can significantly degrade the electronic performance and operational lifetime of organic electronic devices. As a dedicated supplier in China, we focus on ensuring these stringent purity standards are met.
The molecular structure of 3-(2-hexyldecyl)thiophene contributes to favorable charge transport properties, making it an excellent candidate for use as a semiconductor in OFETs. This facilitates the creation of faster and more efficient transistors, which are fundamental components for flexible electronics and advanced logic circuits. Understanding these properties allows researchers to fine-tune device architecture.
In the context of OLEDs and PLEDs, the compound's ability to efficiently transport or emit light is crucial. Its specific electronic configuration helps in achieving high quantum efficiencies and vivid color reproduction, leading to superior display quality. The development of new heterocyclic compounds with tailored electronic properties is an ongoing area of research.
For OPVs, the characteristics of 3-(2-hexyldecyl)thiophene are leveraged to enhance light absorption and facilitate efficient charge separation and collection. This contributes to the overall power conversion efficiency of solar cells, pushing the boundaries of renewable energy technology. The price of such advanced materials reflects the sophisticated synthesis and purification required to achieve these performance levels.
By understanding the specific properties and applications of 3-(2-hexyldecyl)thiophene, researchers and manufacturers can effectively utilize this vital component to drive innovation in the field of organic electronics. Our commitment to providing high-quality, high-purity materials ensures you have the building blocks for success.
With a molecular formula of C20H36S and a molecular weight of 308.56 g/mol, this specialized organic chemistry chemical is distinguished by its high purity, typically a minimum of 97%. This level of purity is critical, as even trace impurities can significantly degrade the electronic performance and operational lifetime of organic electronic devices. As a dedicated supplier in China, we focus on ensuring these stringent purity standards are met.
The molecular structure of 3-(2-hexyldecyl)thiophene contributes to favorable charge transport properties, making it an excellent candidate for use as a semiconductor in OFETs. This facilitates the creation of faster and more efficient transistors, which are fundamental components for flexible electronics and advanced logic circuits. Understanding these properties allows researchers to fine-tune device architecture.
In the context of OLEDs and PLEDs, the compound's ability to efficiently transport or emit light is crucial. Its specific electronic configuration helps in achieving high quantum efficiencies and vivid color reproduction, leading to superior display quality. The development of new heterocyclic compounds with tailored electronic properties is an ongoing area of research.
For OPVs, the characteristics of 3-(2-hexyldecyl)thiophene are leveraged to enhance light absorption and facilitate efficient charge separation and collection. This contributes to the overall power conversion efficiency of solar cells, pushing the boundaries of renewable energy technology. The price of such advanced materials reflects the sophisticated synthesis and purification required to achieve these performance levels.
By understanding the specific properties and applications of 3-(2-hexyldecyl)thiophene, researchers and manufacturers can effectively utilize this vital component to drive innovation in the field of organic electronics. Our commitment to providing high-quality, high-purity materials ensures you have the building blocks for success.
Perspectives & Insights
Molecule Vision 7
“In the context of OLEDs and PLEDs, the compound's ability to efficiently transport or emit light is crucial.”
Alpha Origin 24
“Its specific electronic configuration helps in achieving high quantum efficiencies and vivid color reproduction, leading to superior display quality.”
Future Analyst X
“The development of new heterocyclic compounds with tailored electronic properties is an ongoing area of research.”