Zeolite Mesoporous Silica Nanopowder SBA-15 Type

Zeolite Mesoporous Silica Nanopowder SBA-15 Type

Mesoporous SBA-15 silica is renowned for its large, uniform pores and high surface area, typically featuring a 2D-hexagonal structure. This makes it an excellent material for various advanced applications.

Catalysis

Heterogeneous Catalysis: SBA-15’s large pore size and high surface area make it an ideal support for catalysts in various chemical reactions, including alkylation, hydrogenation, and oxidation. Its structure enhances catalytic efficiency and allows for the dispersion of active catalytic sites.

Selective Catalysis: Its uniform pore size allows for selective catalytic processes, such as the conversion of specific substrates or the production of target chemicals with high selectivity.

Drug Delivery Systems

Controlled Release: SBA-15’s mesoporous structure allows for high drug loading and controlled release of pharmaceuticals. It can be engineered to provide sustained and targeted delivery of drugs, improving therapeutic outcomes.

Targeted Therapy: Functionalized SBA-15 can be used for targeted drug delivery, where specific surface modifications can enhance the targeting of therapeutic agents to particular cells or tissues.

Environmental Remediation

Pollutant Adsorption: SBA-15’s high surface area and large pore volume make it effective for adsorbing environmental pollutants, including heavy metals, organic contaminants, and dyes from water and air.

Filtration: It can be used in advanced filtration systems to remove contaminants from water and air, leveraging its ability to capture a wide range of pollutants.

Energy Storage and Conversion

Supercapacitors: SBA-15’s high surface area is beneficial for supercapacitors, improving energy storage capacity and performance by providing a large surface area for charge accumulation.

Battery Electrodes: Its mesoporous structure can enhance the performance of battery electrodes, such as in lithium-ion or sodium-ion batteries, by improving ion storage and conductivity.

Sensors

Gas Sensors: SBA-15 can be utilized in gas sensors due to its high surface area and the ability to functionalize its surface. It enhances the sensitivity and selectivity of gas detection.

Biosensors: SBA-15’s porous structure is advantageous for biosensors, enabling the detection of biological molecules with improved performance and sensitivity.