Unveiling 4,9-Dihydrothieno[2',3':5,6]-s-indaceno[1,2-b]thiophene for Cutting-Edge Electronics
Discover the potential of CAS 1209012-31-6, a high-purity organic semiconductor driving innovation in OLED, OPV, and OFET technologies. Explore its properties and applications.
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4,9-Dihydrothieno[2',3':5,6]-s-indaceno[1,2-b]thiophene
As a leading supplier of advanced organic electronic materials, we offer 4,9-Dihydrothieno[2',3':5,6]-s-indaceno[1,2-b]thiophene (CAS 1209012-31-6). This compound is engineered for superior performance in optoelectronic applications. Its unique molecular design as an indacenodithiophene derivative makes it a critical component for next-generation devices.
- High purity organic semiconductor: This material boasts a minimum purity of 97%, essential for reliable performance in sensitive electronic applications.
- Application in OLEDs: Explore the potential of this compound for efficient light emission in Organic Light-Emitting Diodes, crucial for vibrant displays.
- Advancements in OPVs: Investigate its role in Organic Photovoltaics, contributing to more efficient solar energy conversion.
- Organic Field-Effect Transistors (OFETs): Understand how this material can enhance charge transport properties in OFETs for flexible electronics.
Advantages Provided by the Product
Enhanced Device Performance
Leverage the unique molecular structure of indacenodithiophene derivatives to achieve improved charge mobility and efficiency in your electronic devices, a key aspect of organic semiconductor for OFETs research.
Superior Material Purity
Benefit from a minimum purity of 97%, ensuring consistent and predictable results when working with high purity organic electronic materials for demanding applications.
Versatile Application Potential
This material is a cornerstone for developing next-generation OLED Materials and OPV Materials, offering a pathway to more efficient and durable optoelectronic solutions.
Key Applications
OLED Technology
As a vital component in OLED Materials, this compound facilitates efficient electroluminescence, contributing to brighter and more energy-efficient displays.
Organic Photovoltaics (OPVs)
Its properties make it a valuable building block for creating high-performance organic solar cells, advancing the field of organic photovoltaics technology.
Organic Field-Effect Transistors (OFETs)
The material's semiconductor characteristics are ideal for enhancing charge transport in OFETs, supporting the development of flexible and printed electronics.
Advanced Electronic Materials
It represents a class of high purity organic electronic materials with broad potential in various optoelectronic research and development areas.