Activated vs. pyrolytic carbon as support matrix for chemical functionalization: Efficient heterogeneous non-heme Mn(II) catalysts for alkene oxidation with H2O2
A. Simaioforidou, M. Papastergiou, A. Margellou, D. Petrakis, M. Louloudi
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引用次数: 22
Abstract
Two types of heterogeneous catalytic materials, MnII-L3imid@Cox and MnII-L3imid@PCox, have been synthesized and compared by covalent grafting of a catalytically active [MnII-L3imid] complex on the surface of an oxidized activated carbon (Cox) and an oxidized pyrolytic carbon from recycled-tire char (PCox). Both hybrids are non-porous bearing graphitic layers intermixed with disordered sp2/sp3 carbon units. Raman spectra show that (ID/IG)activatedcarbon > (ID/IG)pyrolyticcarbon revealing that oxidized activated carbon(Cox) is less graphitized than oxidized pyrolytic carbon (PCox). The MnII-L3imid@Cox and MnII-L3imid@PCox catalysts were evaluated for alkene oxidation with H2O2 in the presence of CH3COONH4. Both showed high selectivity towards epoxides and comparing the achieved yields and TONs, they appear equivalent. However, MnII-L3imid@PCox catalyst is kinetically faster than the MnII-L3imid@Cox (accomplishing the catalytic runs in 1.5 h vs. 5 h). Thus, despite the similarity in TONs MnII-L3imid@PCox achieved extremely higher TOFs vs. MnII-L3imid@Cox. Intriguingly, in terms of recyclability, MnII-L3imid@Cox could be reused for a 2th run showing a ∼20% loss of its catalytic activity, while MnII-L3imid@PCox practically no recyclable. This phenomenon is discussed in a mechanistic context; interlinking oxidative destruction of the Mn-complex with high TOFs for MnII-L3imid@PCox, while the low-TOFs of MnII-L3imid@Cox are preventive for the oxidative destruction of the Mn-complex.
通过在氧化活性炭(Cox)和再生轮胎炭(PCox)的氧化热解碳(PCox)表面接枝具有催化活性的[mni - l3imid]配合物,合成了两种不同类型的催化材料MnII-L3imid@Cox和MnII-L3imid@PCox,并对其进行了比较。两种杂化体均为无孔石墨层,混杂无序的sp2/sp3碳单元。拉曼光谱显示(ID/IG)活性炭>(ID/IG)热解碳,表明氧化活性炭(Cox)的石墨化程度低于氧化热解碳(PCox)。考察了MnII-L3imid@Cox和MnII-L3imid@PCox两种催化剂在CH3COONH4存在下,用H2O2氧化烯烃的性能。两者对环氧化物均表现出较高的选择性,并将其产率和吨数进行比较,两者表现出相当的选择性。然而,MnII-L3imid@PCox催化剂在动力学上比MnII-L3imid@Cox更快(完成催化运行在1.5 h vs. 5 h)。因此,尽管在TONs中相似,MnII-L3imid@PCox比MnII-L3imid@Cox获得了更高的tof。有趣的是,在可回收性方面,MnII-L3imid@Cox可以重复使用2次,显示其催化活性损失约20%,而MnII-L3imid@PCox几乎不可回收。这种现象是在机械的背景下讨论的;对于MnII-L3imid@PCox,高tof的mn -络合物的氧化破坏相互联系,而MnII-L3imid@Cox的低tof对mn -络合物的氧化破坏起预防作用。
期刊介绍:
The Journal of Molecular Catalysis A: Chemical publishes original, rigorous, and scholarly full papers that examine the molecular and atomic aspects of catalytic activation and reaction mechanisms in homogeneous catalysis, heterogeneous catalysis (including supported organometallic catalysis), and computational catalysis.