High-Purity Tributyl-[4-(2-butyl-octyl)-thiophen-2-yl]-stannane for Advanced OLED and OFET Applications
Your key intermediate for cutting-edge organic electronics, delivering superior performance and purity.
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Tributyl-[4-(2-butyl-octyl)-thiophen-2-yl]-stannane
This organotin compound, identified by CAS No. 1638802-06-8, is a critical precursor for the synthesis of advanced materials used in organic electronics. Its specific molecular structure and high purity make it indispensable for achieving optimal performance in applications such as Organic Light-Emitting Diodes (OLEDs), Organic Field-Effect Transistors (OFETs), and Organic Photovoltaics (OPVs).
- Unlock Superior Performance with High Purity Stannane Derivative: Achieve enhanced device efficiency and longevity by utilizing this meticulously purified compound in your organic electronics synthesis.
- Essential for OLED Materials Synthesis: This thiophene-based stannane serves as a vital building block, enabling the creation of novel materials for next-generation display technologies.
- Facilitate OFET Application Chemicals Development: Its unique chemical properties are tailored for applications in organic field-effect transistors, paving the way for flexible and transparent electronics.
- Crucial OPV Material Intermediate: Leverage this compound to create efficient light-harvesting materials for organic photovoltaic cells, contributing to renewable energy solutions.
Key Advantages Offered
Exceptional Purity
With a purity of 97% minimum, this stannane derivative ensures reliable and reproducible results in complex organic synthesis, crucial for developing high-performance organic electronic materials.
Versatile Application Scope
As a key intermediate for OLED materials synthesis and OFET application chemicals, it offers broad utility across various advanced electronic material fields.
Optimized for Organic Electronics
This thiophene-based stannane is specifically designed to meet the stringent demands of organic semiconductor fabrication, offering excellent solubility and reactivity for advanced OPV material intermediates.
Key Applications
OLED Technology
Utilize this high purity stannane derivative as a crucial building block in the synthesis of novel emissive and transport layer materials for advanced OLED devices.
OFET Development
Incorporate this thiophene-based stannane into your research for creating high-mobility organic semiconductors used in organic field-effect transistors.
OPV Advancements
This organic electronics building block is essential for synthesizing efficient donor or acceptor materials in organic photovoltaic cells, driving innovation in solar energy.
Specialty Chemical Synthesis
Leverage its unique organotin and thiophene structure for custom synthesis projects requiring specialized organic electronic materials intermediates.