Nitrogen-Doped Carbon Quantum Dots-Decorated Mg-Al Layered Double Hydroxide-Supported Gold Nanocatalysts for Efficient Base-Free Oxidation of Benzyl Alcohol
mediaposted on 07.01.2020, 15:41 by Yujing Guo, Lipeng Fan, Mengran Liu, Lan Yang, Guoli Fan, Feng Li
A nitrogen-doped carbon quantum dots (NCDs)-decorated Mg-Al layered double hydroxide (MgAl-LDH)-supported gold nanoparticle (NP) was employed in the aerobic oxidation of benzyl alcohol under solvent-free and base-free conditions. Comprehensive characterizations revealed that the decoration of NCDs improved surface basicity of NCD/MgAl-LDH and was beneficial to the stabilization of gold NPs. Compared with MgAl-LDH-supported gold catalyst, Au/NCD/MgAl-LDH showed much better catalytic activity, along with a turnover frequency of about 20 175 h–1 for benzyl alcohol conversion. The promoted catalytic efficiency of the NCD/MgAl-LDH-supported Au catalyst was mainly correlated with unique cooperation between surface hydroxyl arrays at the brucite-like lattice of MgAl-LDH matrix and highly dispersed NCDs, thereby favoring the adsorption and activation of alcohol hydroxyls. Furthermore, compared with Au/MgAl-LDH, Au/NCD/MgAl-LDH showed better structural stability due to the strong Au–NCDs interactions. The primary finding opens a promising approach to develop other highly efficient metal-based catalysts applied in various base-catalyzed heterogeneous reactions.
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turnover frequencyBenzyl Alcoholsurface hydroxyl arrayssurface basicityNitrogen-Doped Carbon Quantum Dots-Decorated Mg-Al Layered Double Hydroxide-Supported Gold Nanocatalystsbase-free conditionsMgAl-LDH-supported gold catalystbenzyl alcohol20 175brucite-like latticenitrogen-doped carbon quantum dotsbenzyl alcohol conversiongold NPsEfficient Base-Free Oxidationmetal-based catalystsMgAl-LDH matrixalcohol hydroxylsNCDComprehensive characterizations