AI Article Synopsis
- The study focuses on the synthesis of a unique ethyl-bridged hybrid silica microsphere called waxberry-like ethyl-bridged hybrid silica sphere (WEHS), which has a hierarchically meso-macroporous structure.
- WEHS features high alkali-stability and faster mass transfer capabilities, making it superior to traditional silica materials, especially for applications like enzyme immobilization and high-performance liquid chromatography.
- The use of WEHS in immobilizing lipase showed high catalytic activity and reusability, while also enabling rapid and efficient separation processes, highlighting its potential in industrial and analytical applications.
Article Abstract
In this study, the ethyl-bridged hybrid silica microsphere with hierarchically meso-macroporous structure was initially synthesized through a method combining dispersion polymerization with sol-gel transition and phase separation. The flow-through macropores rendered the microsphere a rough surface like a waxberry, and thus the material was named as waxberry-like ethyl-bridged hybrid silica sphere (WEHS). WEHS was characteristic of appropriate alkali-stability, which was highly difficult for the pure silica. Additionally, WEHS possessed hierarchical meso- and macropores, which added additional value for faster mass transfer than the conventional fully porous silica materials. Taking the advantages of WEHS, it was successfully applied as the substrate to immobilize lipase; the prepared immobilized lipase exhibited high catalytic activity and favorable reusability under alkaline conditions, which was significant in pitch control of neutral-alkaline papermaking industry. Moreover, as the high-performance liquid chromatographic stationary phase matrix, WEHS made the separation under alkaline mobile phase into a reality for the silica-based materials. Besides, an ultra-fast and efficient separation in minutes was achieved with lower consumption of solvents and saving analytical time, which is highly desired in modern analysis. In general, WEHS was a novel and promising candidate in the myriads of silica-based materials.
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| http://dx.doi.org/10.1016/j.chroma.2018.11.073 | DOI Listing |
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Article Synopsis
- The study focuses on the synthesis of a unique ethyl-bridged hybrid silica microsphere called waxberry-like ethyl-bridged hybrid silica sphere (WEHS), which has a hierarchically meso-macroporous structure.
- WEHS features high alkali-stability and faster mass transfer capabilities, making it superior to traditional silica materials, especially for applications like enzyme immobilization and high-performance liquid chromatography.
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