High-Purity 2-(1-Benzothiophen-7-yl)-4,4,5,5-tetramethyl-1,3,2-dioxaborolane for Advanced Chemical Synthesis
Unlock groundbreaking chemical reactions with our premium organoboron compound, a key intermediate for innovation.
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2-(1-Benzothiophen-7-yl)-4,4,5,5-tetramethyl-1,3,2-dioxaborolane
This high-purity organoboron compound is engineered for demanding chemical synthesis, serving as a critical building block in the development of advanced materials and complex organic molecules. Its unique structure facilitates efficient participation in a wide array of reactions, particularly cross-coupling processes essential for modern chemical innovation.
- Explore the synthesis of novel compounds using this versatile 2-(1-benzothiophen-7-yl)-4,4,5,5-tetramethyl-1,3,2-dioxaborolane, enabling groundbreaking research.
- Leverage the power of benzothiophene boronic ester intermediates to drive your projects forward with reliable and efficient chemical transformations.
- As a key precursor for OLED materials, this compound enables advancements in display and lighting technologies.
- Discover the potential of high purity chemical intermediates in accelerating your drug design and pharmaceutical development pipelines.
Key Advantages
Exceptional Purity
Ensuring 97% minimum purity, this chemical intermediate guarantees reproducible results and minimizes side reactions in your sensitive organic synthesis processes.
Versatile Reactivity
The unique dioxaborolane structure makes it an ideal participant in various cross-coupling reactions, a cornerstone of modern organic chemistry for constructing complex molecular architectures.
Broad Applicability
From cutting-edge OLED materials to critical pharmaceutical intermediates, this compound offers a wide spectrum of applications, driving innovation across industries.
Key Applications
Organic Synthesis
Utilize this compound as a vital building block for complex molecule synthesis, enabling innovative pathways in research and development.
Cross-Coupling Reactions
Facilitate Suzuki-Miyaura and other palladium-catalyzed coupling reactions with this reliable organoboron intermediate, crucial for C-C bond formation.
OLED Materials
Serve as a key precursor for the development of advanced organic light-emitting diode (OLED) materials, contributing to next-generation display technologies.
Pharmaceutical Intermediates
Incorporate this high-quality chemical into drug discovery and development processes as a versatile intermediate for novel therapeutic agents.