Triisobutylaluminium (TIBA) CAS 100-99-2: A Versatile Organoaluminum Reagent
Discover the industrial applications and chemical properties of Triisobutylaluminium, a key organoaluminum compound.
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Triisobutylaluminium
Triisobutylaluminium (TIBA) is a highly reactive organoaluminum compound essential for numerous industrial chemical processes. Its unique properties make it invaluable in polymerization, organic synthesis, and as a component in specialized fuels.
- Explore the
Triisobutylaluminium synthesis pathways and industrial production methods. - Understand the critical
CAS 100-99-2 properties including its reactivity and physical characteristics. - Learn about the diverse
organoaluminum compounds applications in various chemical sectors. - Discover why TIBA is crucial as a
Ziegler-Natta catalyst in the production of polymers.
Key Advantages
Catalytic Efficiency
TIBA acts as a highly effective co-catalyst in polymerization reactions, significantly enhancing polymer properties and production efficiency, a key aspect for
Versatile Synthesis Reagent
This compound is fundamental in the synthesis of
High Reactivity
Its inherent reactivity, though demanding careful handling, makes it a powerful tool for specific chemical transformations and applications like
Key Applications
Polymerization Catalyst
TIBA serves as a vital co-catalyst in Ziegler-Natta systems for olefin polymerization, contributing to the production of polyolefins with desired properties.
Organic Synthesis
It is extensively used in organic synthesis for producing linear primary alcohols and alpha-olefins, crucial intermediates in various industries.
Pyrophoric Applications
Due to its spontaneous flammability in air, TIBA finds use in specific applications requiring pyrophoric agents, such as specialized fuels.
Reducing Agent
As a strong reducing agent, TIBA facilitates various chemical transformations in industrial synthesis processes.