SAPO-34 is a type of aluminophosphate molecular sieve with CHA topology, which plays a crucial role in the conversion of methanol to light olefins (mainly ethylene and propylene) through the Methanol-to-Olefins (MTO) process. This process is pivotal in modern petrochemical industries for producing high-value chemicals from non-petroleum resources efficiently.
TS-1 is a type of molecular sieve that incorporates titanium atoms into its framework, which is primarily composed of silicon and oxygen. This material is known for its distinctive MFI topology, providing it with unique catalytic properties.
ZSM-35 represents a unique class of zeolitic materials with distinctive structural properties and catalytic performance.
ZSM-22 molecular sieves offer unique advantages in addressing various environmental challenges, thanks to their distinctive one-dimensional pore structure and strong acid sites.
Highly Efficient Cu-SSZ-13 Catalyst for Advanced Methanol to Olefins (MTO) Conversion Processes
Methanol decomposition is the chemical process of breaking down methanol into carbon monoxide and hydrogen. Methanol decomposition catalysts are substances that accelerate this decomposition reaction, effectively suppress side reactions, and reduce the reaction temperature required.
SSZ-13 is a small-pore CHA (Chabazite)-type aluminosilicate zeolite with an 8-membered ring pore structure (~3.8 Å). Its high hydrothermal stability, strong acidity, and unique cage-like framework make it a key material in several industrial and environmental applications, particularly in automotive emission control and gas separation.
