A DFT Study of Ethylene Hydrogenation Reaction Mechanisms on Ni_(13) Nanocluster

N. D. Yilmazer; M. F. Fellah; I. Onal

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A DFT Study of Ethylene Hydrogenation Reaction Mechanisms on Ni_(13) Nanocluster

机译：Ni_（13）纳米簇上乙烯加氢反应机理的DFT研究

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Metal nanoclusters can potentially exhibit high catalytic activity and selectivity due to not only a high number of exposed surface atoms but also active sites with different coordination numbers as compared to bulk catalyst surface. In this study ethylene hydrogenation was used as a model reaction in an effort to elaborate reactivity of small Ni nanoclusters and the ethylene hydrogenation reaction mechanism. Two mechanistic pathways; representing Eley-Rideal and Horiuti-Polanyi type of mechanism for ethylene hydrogenation reaction are studied. It has been concluded that Horiuti-Polanyi type is more favorable when compared to Eley-Rideal type.

机译：金属纳米团簇可能不仅由于大量暴露的表面原子而且由于与本体催化剂表面相比具有不同配位数的活性位点而可能具有高催化活性和选择性。在这项研究中，乙烯加氢被用作模型反应，以阐明小的Ni纳米团簇的反应性和乙烯加氢反应机理。两条机械途径;研究了代表Eley-Rideal和Horiuti-Polanyi类型的乙烯加氢反应机理。已经得出结论，与Eley-Rideal类型相比，Horiuti-Polanyi类型更为有利。

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来源
《Topics in Catalysis》 |2013年第10期|共5页
作者
N. D. Yilmazer; M. F. Fellah; I. Onal;
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正文语种 eng
中图分类化学动力学、催化作用;
关键词
Ni nanocluster; DFT; Ethylene hydrogenation mechanism; Activation barrier; Magic number;

机译：镍纳米团簇;DFT;乙烯加氢机理;活化能垒;魔幻数;

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1. A DFT Study of Ethylene Hydrogenation Reaction Mechanisms on Ni_(13) Nanocluster [J] . N. D. Yilmazer, M. F. Fellah, I. Onal Topics in Catalysis . 2013,第9a10期

机译：Ni_（13）纳米簇上乙烯加氢反应机理的DFT研究
2. Selective hydrogenation of acetylene in the presence of ethylene on palladium nanocluster surfaces: A DFT study [J] . Abdollahi Tahereh, Farmanzadeh Davood Applied Surface Science . 2018,第mara1期

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3. DFT study of selective hydrogenation of acetylene to ethylene on Pd doping Ag nanoclusters [J] . Liu D. Applied Surface Science . 2016,第nova15期

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4. Dehydrogenation Characteristics of Mg_nH_(2n) (n = 1-32) Nanoclusters: A First-principles DFT study [C] . P. Banerjee, K.R.S Chandrakumar, G.P. Das DAE Solid State Physics Symposium . 2015

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6. Theoretical Insights into the Reaction Mechanism between2378-Tetrachlorodibenzofuran and Hydrogen Peroxide: A DFT Study [O] . Nana Bai, Weihua Wang, *, 2019

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7. Unravelling the Reaction Mechanism of Formic Acid Dehydrogenation by Cp*Rh(III) and Cp*Co(III) Catalysts with Proton-Responsive 4,4- and 6,6-Dihydroxy-2,2-Bipyridine Ligands: A DFT Study [O] . -1

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8. Studies on the Mechanism of Ethylene Hydrogenation over Iridium (111) Single Crystals [R] . Lloyd, J. T. 1987

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A DFT Study of Ethylene Hydrogenation Reaction Mechanisms on Ni_(13) Nanocluster

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