Cover Feature: Confining Gold Nanoclusters in Highly Defective Graphitic Layers To Enhance the Methanol Electrooxidation Reaction (ChemCatChem 1/2018),ChemCatChem

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Cover Feature: Confining Gold Nanoclusters in Highly Defective Graphitic Layers To Enhance the Methanol Electrooxidation Reaction (ChemCatChem 1/2018)
ChemCatChem ( IF 3.8 ) Pub Date : 2018-01-09 , DOI: 10.1002/cctc.201701982
Zhe Mao _{1,

2} , Haihua Hu ₂ , Rui Su ₃ , Peizhi Liu ₄ , Yixing Li ₂ , Wenting Zhang ₂ , Xiaoning Zhao ₂ , Junjie Guo ₄ , Pengfei Guan ₃ , Gaowu Qin ₂ , Xuefeng Zhang _{1,

2}

Affiliation

The Cover Feature shows a gold nanocluster confined within a highly defective graphitic cage. In their Communication, Z. Mao et al. demonstrate that such a construction not only improves the conductivity, accelerating the penetration of ions and electrons during the electrocatalytic oxidation of methanol molecules, but also suppresses the chemical/thermal coarsening of gold clusters. More importantly, the atomic‐scale Au/C interfaces contribute to a synergistic effect that enhances the activity as compared to other gold‐based catalysts. More information can be found in the Communication by Z. Mao et al on page 141 in Issue 1, 2018 (DOI: 10.1002/cctc.201700895).

中文翻译：

封面功能：将金纳米簇限制在高度缺陷的石墨层中以增强甲醇的电氧化反应（ChemCatChem 1/2018）

封面特征显示了金纳米团簇，该团簇被限制在高度缺陷的石墨笼中。在他们的交流中，Z。Mao等人。证明了这种结构不仅提高了电导率，加速了甲醇分子电催化氧化过程中离子和电子的渗透，而且抑制了金簇的化学/热粗化。更重要的是，与其他金基催化剂相比，原子级Au / C界面具有协同作用，可增强活性。有关更多信息，请参见Z.Mao等人在2018年第1期的第141页上的交流（DOI：10.1002 / cctc.201700895）。

更新日期：2018-01-09

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