2-Bromo-4-hexylthiophene: A Key Intermediate for Advanced Organic Electronics
Unlock the potential of next-generation electronic devices with high-purity 2-Bromo-4-hexylthiophene. As a vital building block for OFETs, OLEDs, PLEDs, and OPVs, this heterocyclic compound is essential for innovators seeking superior performance and novel applications in organic electronics.
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2-Bromo-4-hexylthiophene
As a leading supplier in China, we offer high-quality 2-Bromo-4-hexylthiophene (CAS: 210705-84-3), a critical intermediate for the development of advanced organic electronic materials. Its unique molecular structure makes it ideal for fabricating high-performance devices such as Organic Field-Effect Transistors (OFETs) and Organic Light-Emitting Diodes (OLEDs).
- Enabling High-Performance OFET Materials: Leverage this key intermediate to enhance charge carrier mobility in your OFET devices, pushing the boundaries of flexible electronics.
- Facilitating Advanced OLED Synthesis: Utilize 2-Bromo-4-hexylthiophene as a crucial building block for novel emitter and charge transport layers in vibrant OLED displays.
- Driving Innovation in OPV Development: Incorporate this thiophene derivative into your organic photovoltaic (OPV) designs to improve power conversion efficiency and device stability.
- Ensuring Purity and Reliability: With a minimum purity of 97%, our product guarantees consistent results for your critical research and manufacturing processes in organic electronics.
Advantages Offered by the Product
Enhanced Device Performance
Utilize 2-Bromo-4-hexylthiophene to achieve superior charge transport and light emission properties, crucial for cutting-edge OLED materials.
Versatile Synthetic Applications
This compound serves as a flexible building block for various thiophene derivatives, enabling diverse functionalities in electronic applications.
Reliable Purity Standards
Benefit from a minimum purity of 97%, ensuring predictable outcomes when synthesizing complex organic semiconductors for OFETs.
Key Applications
Organic Field-Effect Transistors (OFETs)
This chemical is fundamental for creating advanced semiconductor layers in OFETs, contributing to the development of flexible displays and sensors, crucial for organic electronics.
Organic Light-Emitting Diodes (OLEDs)
Used as a key intermediate in the synthesis of emissive and charge-transporting materials, enhancing the efficiency and color purity of OLED displays and lighting, vital for high-quality OLED materials.
Polymer Light-Emitting Diodes (PLEDs)
Its properties are leveraged to develop soluble conjugated polymers for PLEDs, enabling simpler processing and larger-area device fabrication, supporting innovation in thiophene derivatives.
Organic Photovoltaics (OPVs)
Serves as a precursor for donor or acceptor materials in OPVs, aiming to boost solar energy conversion efficiency and create lightweight, flexible solar cells, contributing to advancements in OPVs.