Finding the Most Catalytically Active Platinum Clusters With Low Atomicity

Imaoka Takane; Kitazawa Hirokazu; Chun Wang-Jae; Yamamoto Kimihisa

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Finding the Most Catalytically Active Platinum Clusters With Low Atomicity

机译：寻找具有低原子度的最具催化活性的铂簇

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On a subnanometer scale, an only one-atom difference in a metal cluster may cause significant transitions in the catalytic activity due to the electronic and geometric configurations. We now report the atomicity-specific catalytic activity of platinum clusters with significantly small atomicity, especially below 20. The atomic coordination structure is completely different from that of the larger face-centered cubic (fcc) nanocrystals. Here, an electrochemical study on such small clusters, in which the atomicity ranged between 12 and 20, revealed Pt-19 as the most catalytically active species. In combination with a theoretical study, a common structure that leads to a high catalytic performance is proposed.

机译：在亚纳米尺度上，由于电子和几何构型，金属簇中仅一个原子的差异可能会引起催化活性的明显转变。现在，我们报告具有非常小的原子性，尤其是低于20的铂簇的原子特异性催化活性。原子配位结构与较大的面心立方（fcc）纳米晶体完全不同。在这里，对原子团数介于12和20之间的小簇的电化学研究表明，Pt-19是最具催化活性的物质。结合理论研究，提出了导致高催化性能的通用结构。

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《Angewandte Chemie》 |2015年第34期|共7页
作者
Imaoka Takane; Kitazawa Hirokazu; Chun Wang-Jae; Yamamoto Kimihisa;
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正文语种 eng
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catalysts; cluster compounds; dendrimers; oxygen reduction reaction; platinum;

机译：催化剂;簇合物;树枝状大分子;氧还原反应;铂;

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专利

1. Finding the Most Catalytically Active Platinum Clusters With Low Atomicity [J] . Imaoka Takane, Kitazawa Hirokazu, Chun Wang-Jae, Angewandte Chemie . 2015,第34期

机译：寻找具有低原子度的最具催化活性的铂簇
2. Ethanol Electro-Oxidation on Ternary Platinum-Rhodium-Tin Nanocatalysts: Insights in the Atomic 3D Structure of the Active Catalytic Phase [J] . Nina Erini, Rameshwori Loukrakpam, Valeri Petkov ACS catalysis . 2014,第6期

机译：三元铂铑铑锡纳米催化剂上的乙醇电氧化：活性催化相的原子3D结构的见解。
3. Structure of the Active Platinum Cluster and Reaction Pathway of the Selective Synthesis of Phenol from Benzene and Oxygen Regulated with Ammonia on a Platinum Cluster/beta-Zeolite Catalyst Studied by DFT Calculations [J] . Sasaki Takehiko, Tada Mizuki, Wang Linsheng, Chemistry, an Asian journal . 2015,第10期

机译：通过DFT计算研究铂簇/β-沸石催化剂上活性铂簇的结构和苯和氨调节氧选择性合成苯酚的反应途径。
4. Catalytic Properties of Low-Temperature NO Reduction Driven by Platinum Cluster Disks Bound to Silicon Substrate Surface [C] . Hisato Yasumatsu, Nobuyuki Fukui 日本化学会春季年会講演予稿集 . 2018

机译：低温的催化性能由粘附到硅衬底表面的铂簇盘驱动的催化性能
5. Atomically Dispersed Gold and Platinum Species on Various Oxide Supports for Catalytic Low-Temperature Hydrogen Generation. [D] . Yang, Ming. 2015

机译：在各种氧化物载体上原子分散的金和铂物种，用于催化低温氢气的产生。
6. Oxygen Reduction Reaction Catalyzed by Carbon-Supported Platinum Few-Atom Clusters: Significant Enhancement by Doping of Atomic Cobalt [O] . Bingzhang Lu, Qiming Liu, Forrest Nichols, 2020

机译：通过碳负载铂催化氧还原反应少量原子簇：通过原子钴掺杂显着提高
7. Frontispiz: Finding the Most Catalytically Active Platinum Clusters With Low Atomicity [O] . Takane Imaoka, Hirokazu Kitazawa, Wang-Jae Chun, 2015

机译：FrontiSpiz：找到具有低原子的最催化的铂簇

Finding the Most Catalytically Active Platinum Clusters With Low Atomicity

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