BASF

Last updated January 31, 2026

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Aluminosilicate zeolite intergrowth synthesis: BASFRecent Research Landscape

Uncontrolled crystal phase transitions during synthesis lead to poor catalytic selectivity and thermal instability. Precise integration of titanium and zinc into specific framework topologies stabilizes the active sites for high-yield chemical conversions.

What technical problems is BASF addressing in Aluminosilicate zeolite intergrowth synthesis?

Inefficient batch synthesis throughput

(20)evidences

Standard synthesis methods often fail to produce complex intergrown topologies required for specific catalytic selectivity. Overcoming this limitation allows for the creation of hybrid pore systems with enhanced molecular diffusion.

Insufficient catalyst mechanical stability

(11)evidences

Unwanted side reactions and byproduct formation during the oxidation of olefins. Improving selectivity increases product yield and reduces purification costs.