Foam Silica Films Synthesized by Calcium Chloride-Assisted Emulsification

Abstract: The development of porous films presenting accessible high specific surface area is important to design new adsorbents, sensors or catalyst supports. Here, we describe a simple method to prepare a foam silica coating by using an evaporation induced emulsification method assisted by calcium chloride. An alcoholic silica sol containing calcium chloride and a poly(ethylene oxide) containing polymer is deposited on a substrate by dip-coating. The alcohol evaporation induces a phase separation between a silica-rich… Show more

“…Recently, various methods were developed by chemists for immobilizing active centers to improve the efficiency of the catalysts . Stabilization of the catalysts on solid supports is one of the simplest methods to modify the efficiency and recycling of catalysts. , The most commonly used solids are zeolites, carbon materials, mesoporous SiO 2 , magnetic materials, and so on. − Coordination polymers (CPs) are solid-state constructions involving reiterated coordination units extending in one, two, or three dimensions . These organic–inorganic solids with infinite and uniform building blocks are constructed from polydentate organic ligands as linkers and metallic ions or metal-containing clusters as nodes. − Nowadays, CPs have received much attention due to their unique structural properties such as various metal sites, highly ordered porosity, high surface area, functional organic linkers, and good biocompatibility. − Due to these outstanding physicochemical properties, CPs can be utilized for a wide variety of applications in catalysis, photocatalysis, sensors, gas storage, biomedicine, water remediation, separation, and electrocatalysis. , …”

Sustainable Coordination Polymer-Based Catalyst and Its Application in the Nitroaromatic Hydrogenation under Mild Conditions

“…Recently, various methods were developed by chemists for immobilizing active centers to improve the efficiency of the catalysts . Stabilization of the catalysts on solid supports is one of the simplest methods to modify the efficiency and recycling of catalysts. , The most commonly used solids are zeolites, carbon materials, mesoporous SiO 2 , magnetic materials, and so on. − Coordination polymers (CPs) are solid-state constructions involving reiterated coordination units extending in one, two, or three dimensions . These organic–inorganic solids with infinite and uniform building blocks are constructed from polydentate organic ligands as linkers and metallic ions or metal-containing clusters as nodes. − Nowadays, CPs have received much attention due to their unique structural properties such as various metal sites, highly ordered porosity, high surface area, functional organic linkers, and good biocompatibility. − Due to these outstanding physicochemical properties, CPs can be utilized for a wide variety of applications in catalysis, photocatalysis, sensors, gas storage, biomedicine, water remediation, separation, and electrocatalysis. , …”

Sustainable Coordination Polymer-Based Catalyst and Its Application in the Nitroaromatic Hydrogenation under Mild Conditions

“…In the 1990s, they developed a procedure for synthesizing porous silica for separation applications on the basis of silica-PEG composites produced by a sol-gel method. We were also inspired by a previous work [24] dealing with the development of porous coatings, in which we described phase separation phenomena in a system based on silica / PEG and assisted by calcium chloride. A two-fold strategy is proposed in this paper to stabilize the salt (calcium chloride) in a solid matrix.…”

Characterization of silica-PEG-CaCl2 composite sorbents in an open thermochemical heat storage reactor

Control over the spatial correlation of perforations in silica thin films as a function of solution conditions