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Singlet oxygen-promoted one-pot synthesis of highly ordered mesoporous silica materials <i>via</i> the radical route
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Citations
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References
2022
Year
Materials ScienceAssembly RateChemical EngineeringAcid-free Synthesis SystemEngineeringRadical RouteHeterogeneous CatalysisMesoporous Silica MaterialsCatalysisChemistryCatalyst PreparationFunctional MaterialsO 2Catalytic Synthesis
Compared with ˙OH in an acid-free synthesis system, 1 O 2 plays a more important role in the hydrolysis of TEOS to meet the targeted assembly rate for templates, which is crucial for the one-pot synthesis of mesoporous silica materials.
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