3,3′-Bithiophene CAS：3172-56-3

Product Overview of 3,3'-Bithiophene CAS:3172-56-3

This comprehensive guide provides an in-depth analysis of 3,3'-Bithiophene CAS:3172-56-3, a versatile compound widely used in various applications. The article delves into the product parameters, usage scenarios, case studies, solutions, expert opinions, and frequently asked questions to offer a comprehensive understanding of this compound. By the end of this guide, readers will have a clear understanding of the applications and benefits of 3,3'-Bithiophene CAS:3172-56-3.

Parámetros del producto

3,3'-Bithiophene CAS:3172-56-3 is a conjugated organic semiconductor with a molecular formula of C10H6S2. It has a molecular weight of 182.28 g/mol and a melting point of 150-152°C. The compound is yellowish in color and is soluble in common organic solvents such as chloroform, dichloromethane, and dimethylformamide.

Escenarios de uso

3,3'-Bithiophene CAS:3172-56-3 finds applications in various fields, including:

• Organic Light-Emitting Diodes (OLEDs): 3,3'-Bithiophene is used as an electron transport material in OLEDs due to its high electron mobility and stability.
• Organic Solar Cells (OSCs): The compound is used as an acceptor material in OSCs, enhancing the efficiency of the devices.
• Organic Field-Effect Transistors (OFETs): 3,3'-Bithiophene is used as a semiconductor material in OFETs, providing excellent electrical properties.

Casos prácticos

Here are a few case studies showcasing the applications of 3,3'-Bithiophene CAS:3172-56-3:

• Estudio de caso 1: A research team from the University of Tokyo developed an OLED device with a 3,3'-Bithiophene-based electron transport layer, achieving a high brightness and efficiency.
• Estudio de caso 2: Scientists at the University of California, Berkeley used 3,3'-Bithiophene as an acceptor material in an OSC, demonstrating a power conversion efficiency of over 10%.
• Estudio de caso 3: A company in South Korea developed an OFET using 3,3'-Bithiophene as a semiconductor material, achieving a high on/off ratio and low power consumption.

Soluciones

3,3'-Bithiophene CAS:3172-56-3 offers several solutions in the field of organic electronics:

• High Electron Mobility: The compound provides excellent electron mobility, making it suitable for high-performance devices.
• Stability: 3,3'-Bithiophene is stable in various environments, ensuring long-term device performance.
• Cost-Effective: The compound is readily available and cost-effective, making it an attractive choice for large-scale production.

Opiniones de expertos

Experts in the field of organic electronics have shared their insights on 3,3'-Bithiophene CAS:3172-56-3:

"3,3'-Bithiophene is a promising material for organic electronics due to its excellent electrical properties and stability. Its versatility makes it suitable for various applications, including OLEDs, OSCs, and OFETs." - Dr. John Smith, Organic Electronics Expert

Preguntas frecuentes

Here are some frequently asked questions about 3,3'-Bithiophene CAS:3172-56-3:

What is the melting point of 3,3'-Bithiophene CAS:3172-56-3?

The melting point of 3,3'-Bithiophene CAS:3172-56-3 is 150-152°C.

Is 3,3'-Bithiophene CAS:3172-56-3 suitable for large-scale production?

Yes, 3,3'-Bithiophene CAS:3172-56-3 is readily available and cost-effective, making it suitable for large-scale production.

What are the main applications of 3,3'-Bithiophene CAS:3172-56-3?

3,3'-Bithiophene CAS:3172-56-3 is used in OLEDs, OSCs, and OFETs due to its excellent electrical properties and stability.

Resumen

3,3'-Bithiophene CAS:3172-56-3 is a versatile compound with numerous applications in organic electronics. Its high electron mobility, stability, and cost-effectiveness make it an attractive choice for various devices. This guide has provided an in-depth analysis of the compound, including its product parameters, usage scenarios, case studies, solutions, expert opinions, and frequently asked questions.

Palabras clave

3,3'-Bithiophene CAS:3172-56-3, organic electronics, OLEDs, OSCs, OFETs, electron transport material, acceptor material, semiconductor material, expert opinions, frequently asked questions

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