A DFT + U study of acetylene selective hydrogenation over anatase supported PdaAgb (a + b = 4) cluster.

@article{Meng2014AD,
  title={A DFT + U study of acetylene selective hydrogenation over anatase supported PdaAgb (a + b = 4) cluster.},
  author={Ling-Dong Meng and Gui-Chang Wang},
  journal={Physical chemistry chemical physics : PCCP},
  year={2014},
  volume={16 33},
  pages={
          17541-50
        }
}
It is well known that the addition of Ag into Pd can promote the selectivity of acetylene hydrogenation to ethylene, and early theoretical studies focus on ideal single crystal model catalysts, so it is worth studying relatively realistic catalyst models, such as metal oxide supported PdAg systems. In this work, the reaction mechanisms for acetylene selective hydrogenation on the anatase TiO2(101) supported PdaAgb (a + b = 4) cluster are studied by density functional theory calculations with a… 
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22 Citations

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Selective hydrogenation of acetylene over TiO2-supported PdAg cluster: carbon species effect
It is well known that the carbon species has a strong effect on the catalytic activity and selectivity of acetylene (C2H2) hydrogenation, and the previous theoretical work has mainly concentrated on
A DFT study and micro-kinetic analysis of acetylene selective hydrogenation on Pd-doped Cu(111) surfaces
BNPd single-atom catalysts for selective hydrogenation of acetylene to ethylene: a density functional theory study
TLDR
The hydrogenation reaction of acetylene on the B11N12Pd complex complies with the Horiuti–Polanyi mechanism, and the energy barrier was as low as 26.55 kcal mol−1.
C2H2 semi-hydrogenation on the metal M (M = Cu, Ag, Au) alloyed single-atom Pd catalysts: Effects of Pd coordination number and environment on the catalytic performance
Selective hydrogenation of acetylene on the PdLa@N-doped biochar catalyst surface: the evolution of active sites, catalytic performance, and mechanism
Carbon materials show great potential in catalytic applications, due to their advantages of wide raw material sources, stable chemical properties, and large specific surface area. In this paper,
C2H2 semi-hydrogenation over the supported Pd and Cu catalysts: The effects of the support types, properties and metal-support interaction on C2H4 selectivity and activity
Adsorption of C2 gases over CeO2-based catalysts: synergism of cationic sites and anionic vacancies.
TLDR
Pd-substituted CeO2 was found to be a good catalyst for the reaction with complete acetylene conversion observed below 100 °C, and the role of the presence of cationic substitution and anionic vacancies in strengthening the adsorption of gases was established.
Preparation of improved Ag–Pd/TiO2 catalysts using the combined strong electrostatic adsorption and electroless deposition methods for the selective hydrogenation of acetylene
TiO2-supported Ag–Pd catalysts were prepared by strong electrostatic adsorption (SEA) of Pd followed by electroless deposition (ED) of Ag with incremental surface coverages of Ag (θAg) ranging from
The effects of doping metal type and ratio on the catalytic performance of C2H2 semi-hydrogenation over the intermetallic compound-containing Pd catalysts
Combined experimental and theoretical study of acetylene semi-hydrogenation over Pd/Al2O3
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