@article{Samadi_Shafiei_Soudbar_Fathinejad_2023, title={Silver supported on mesoporous silica combination with H2O2: active, recyclable, and selective oxidation component for conversion of olefines to 1, 2-diols}, volume={12}, url={https://oiccpress.com/iranian-journal-of-catalysis/article/silver-supported-on-mesoporous-silica-combination-with-h2o2-active-recyclable-and-selective-oxidation-component-for-conversion-of-olefines-to-1-2-diols/}, DOI={10.30495/ijc.2022.1960932.1943}, abstractNote={The selective oxidation of olefins is a key academic and industrial research challenge. Herein, silver was supported on mesoporous silica through a facile synthesis procedure, and characterized using various technics such as FT-IR, XRD, SEM, BET, and EDX. This efficient separable agent alongside aqueous H2O2 was applied to the oxidation of various olefines (1-octen, 1-hexene, cyclohexene, cyclooctene, styrene, and 1, 2-diphenylmethane) to 1, 2-diol under mild reaction conditions (65 ℃) with high conversion and excellent selectivity. The promoter exhibited excellent reusability and stability in the reaction medium.   Highlights Synthesis of new catalyst: Mesoporous silica based silver/H2O2 Selective oxidation of alkenes Recovery of catalyst Efficient catalyst for selective oxidation of olefins to 1,2-diols }, number={4}, journal={Iranian Journal of Catalysis}, publisher={OICC Press}, author={Samadi, Shakiba and Shafiei, Hadi and Soudbar, Davoud and Fathinejad, Hassan}, year={2023}, month={Dec.}, keywords={Silver, Selective oxidation, 2-diol, Nanocomposite, Mesoporous silica} }