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配体连接基对混合价态Cu(I)Cu(II)稳定性及催化需氧醇氧化活性的影响。

Effects of the ligand linkers on stability of mixed-valence Cu(I)Cu(II) and catalytic aerobic alcohol oxidation activity.

作者信息

Jehdaramarn Attawit, Chantarojsiri Teera, Worakul Thanapat, Surawatanawong Panida, Chainok Kittipong, Sangtrirutnugul Preeyanuch

机构信息

Center of Excellence for Innovation in Chemistry (PERCH-CIC), Department of Chemistry, Faculty of Science, Mahidol University, Bangkok, Thailand.

Center of Sustainable Energy and Green Materials, Mahidol University, Salaya, 73170, Nakhon Pathom, Thailand.

出版信息

Sci Rep. 2024 Jul 5;14(1):15497. doi: 10.1038/s41598-024-66227-2.

Abstract

We synthesized a class of ligands that feature single (L1) and dual amine-bis(triazole) chelates (L2 with a 1,3-phenylene linker and L3 with a 1,5-naphthalene linker). Our findings which were derived from UV-Vis titrations, crystal structure analysis of relevant copper complexes, and DFT calculations indicate the formation of both mononuclear CuBr(L1) and dinuclear (μ-Ln)(CuBr) (Ln = L2 and L3) complexes. The catalytic activities of CuBr/Ln, in combination with TEMPO (2,2,6,6-tetramethylpiperidin-1-yl)oxyl) co-catalyst and NMI (N-methylimidazole) for aerobic alcohol oxidation, reveal the following activity trend: CuBr/L3 > CuBr/L2 > CuBr/L1. Furthermore, electrochemical data from in-situ generated CuBr complexes suggest that the higher catalytic performance of CuBr/L3 is attributed to the presence of less stable mixed-valence and more reducible Cu(I)-L3-Cu(II) species compared to Cu(I)-L2-Cu(II). This difference is a result of weaker σ interactions between Cu-N, larger bridging π systems, and a longer Cu···Cu distance in the presence of L3. Additionally, the catalyst system, CuBr/L3/TEMPO/NMI, efficiently promotes the aerobic oxidation of benzyl alcohol to benzaldehyde at room temperature in CHCN with a high turnover frequency (TOF) of 38 h at 1 h.

摘要

我们合成了一类配体,其特征在于具有单胺 - 双(三唑)螯合物(L1)和双胺 - 双(三唑)螯合物(带有1,3 - 亚苯基连接基的L2和带有1,5 - 萘基连接基的L3)。我们通过紫外 - 可见滴定、相关铜配合物的晶体结构分析以及密度泛函理论计算得出的结果表明,形成了单核CuBr(L1)和双核(μ - Ln)(CuBr)(Ln = L2和L3)配合物。CuBr/Ln与TEMPO(2,2,6,6 - 四甲基哌啶 - 1 - 氧基)共催化剂和NMI(N - 甲基咪唑)组合用于有氧醇氧化的催化活性显示出以下活性趋势:CuBr/L3>CuBr/L2>CuBr/L1。此外,原位生成的CuBr配合物的电化学数据表明,与Cu(I) - L2 - Cu(II)相比,CuBr/L3具有更高的催化性能归因于存在不太稳定的混合价态和更易还原的Cu(I) - L3 - Cu(II)物种。这种差异是由于在L3存在下Cu - N之间较弱的σ相互作用、较大的桥连π体系以及更长的Cu···Cu距离所致。此外,催化剂体系CuBr/L3/TEMPO/NMI在室温下于CHCN中能高效促进苯甲醇有氧氧化为苯甲醛,在1小时时具有38 h的高周转频率(TOF)。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/524a/11226613/f08d07cbef71/41598_2024_66227_Fig1_HTML.jpg

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