25
2025/9
MCM-22, a unique molecular sieve with a three-dimensional pore system, has been extensively researched and applied in the conversion of aromatic hydrocarbons due to its distinctive structural properties and catalytic performance. This catalyst is particularly effective in processes such as alkylation, transalkylation, and isomerization, which are crucial for producing high-value chemicals from aromatic feedstocks.
24
2025/9
SAPO-11, a member of the Silicoaluminophosphate (SAPO) molecular sieves family, is recognized for its unique structural and catalytic properties that make it highly effective in various petrochemical processing applications. Specifically, SAPO-11 has shown great promise in optimizing Selective Catalytic Reduction (SCR) processes, which are crucial for reducing nitrogen oxides (NOx) emissions from industrial and automotive exhaust gases.
22
2025/9
ZSM-35 is a type of synthetic zeolite, which belongs to the family of molecular sieves. It has a unique framework structure known as FER (named after the mineral ferrierite), which gives it specific properties that make it useful in various catalytic applications. Here's an overview of ZSM-35 molecular sieve:
22
2025/9
ZSM-5, a type of zeolite with a distinctive three-dimensional pore structure and high thermal stability, has found extensive applications within the petrochemical industry. Its unique properties make it an ideal catalyst for various processes, including catalytic cracking, isomerization, alkylation, and more. Below, we explore how ZSM-5 contributes to these processes and its advantages over other catalysts.
SAPO-5, a member of the Silicoaluminophosphate (SAPO) family, is known for its unique framework structure and versatile applications in selective adsorption processes. This material combines elements of silica, alumina, and phosphate to form a crystalline microporous solid with distinct advantages over traditional zeolites for certain industrial applications. Below, we delve into the key characteristics, application scenarios, and market positioning of SAPO-5.
ZSM-11 is a type of zeolite with unique structural properties that make it highly effective for gas separation and purification. Its one-dimensional pore system, along with specific physical and chemical characteristics, allows for selective adsorption and diffusion of gases. Here’s an in-depth look at how ZSM-11 can be utilized in these applications, focusing on its key performance indicators, application examples, and potential market positioning.
Zeolite Socony Mobil-5 (ZSM-5) is a high-silica zeolite with a three-dimensional pore system and unique catalytic properties, making it an essential material for various industrial applications. The optimization of ZSM-5 synthesis focuses on enhancing its performance characteristics such as crystallinity, purity, crystal size, and morphology, while also aiming to reduce production costs. Below, we delve into key strategies and techniques for optimizing the synthesis of ZSM-5.
Mobil Composition of Matter No. 41 (MCM-41) is a type of mesoporous silica material known for its unique hexagonal array of uniform, cylindrical mesopores. Since its discovery, MCM-41 has found extensive applications as a catalyst or catalyst support due to its tunable pore size, high specific surface area, and excellent thermal stability. Below, we explore the key features, chemical composition, advantages, and specific catalytic applications of MCM-41.
Silica-based mesoporous materials have attracted significant attention due to their unique properties, making them ideal candidates for catalytic applications. Among these, Santa Barbara Amorphous-15 (SBA-15) stands out as an excellent support material for metal nanoparticles (MNPs), offering a versatile platform for enhancing catalytic performance across various reactions.
