High-Performance Benzene Partial Hydrogenation Catalyst for Cyclohexene Synthesis
Achieve high efficiency and selectivity in producing cyclohexene through advanced catalytic hydrogenation.
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Benzene Partial Hydrogenation Catalyst
This advanced catalyst is specifically engineered for the crucial task of benzene partial hydrogenation, yielding valuable cyclohexene. With an activity level of ge 70 (benzene(g)/catalyst(g).h⁻¹), it ensures robust performance. Its conversion rate of ge 50% and selectivity of ge 80% highlight its efficiency in synthesizing cycloolefins from various aromatic compounds.
- Discover a catalyst for cyclohexene synthesis with superior benzene partial hydrogenation capabilities.
- Leverage high catalyst activity for efficient aromatic partial hydrogenation processes.
- Benefit from excellent catalyst selectivity, crucial for producing cycloolefins.
- Explore the reliable production of cycloolefins using advanced homogeneous hydrogenation catalysts.
Key Advantages
High Selectivity
Achieve exceptional selectivity in the production of cycloolefins via the partial hydrogenation of benzene and other aromatics.
Enhanced Activity
Benefit from the high activity of this catalyst, demonstrated by a benzene conversion rate of ge 50%, enabling efficient chemical transformations.
Versatile Application
This catalyst is not limited to benzene; it can be effectively applied to the partial hydrogenation of various aromatics to produce cycloolefins.
Key Applications
Cyclohexene Production
A primary application of this catalyst is in the precise synthesis of cyclohexene through the partial hydrogenation of benzene.
Cycloolefin Synthesis
Expand your chemical synthesis with this catalyst's ability to produce a range of cycloolefins from different aromatic precursors.
Fine Chemical Manufacturing
Utilize this catalyst in fine chemical manufacturing processes requiring selective hydrogenation of aromatic compounds.
Petrochemical Industry
This catalyst plays a role in the petrochemical sector, facilitating key intermediate production through controlled hydrogenation.