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Effect of the Modification of Catalysts on the Catalytic Performance

Effect of the Modification of Catalysts on the Catalytic Performance

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The Special Issue, “Effect of the Modification of Catalysts on the Catalytic Performance”, should be of great interest to all researchers involved in this scientific area regarding the synthesis and characterization of various catalysts or catalytic materials; catalytic performance (activity and selectivity); synergetic effect; and the modification of catalysts or suitable promoters that are added to modify the catalyst structure.

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Keywords

  • 3D mesoporous silica
  • activated carbon fiber
  • alkali metal poison
  • ammonia catalytic ozonation assisted by solar light
  • Au/Ti-supported catalysts
  • catalytic performances
  • CO oxidation
  • co-crystallization
  • CoOx
  • copper spacer
  • crystal size
  • Cu/SSZ-13
  • ethylenediamine modification
  • Fe-modified titanate
  • Fe2O3 nanocubes
  • formic acid decomposition
  • fractal analysis
  • fractal dimension
  • heterojunction
  • hierarchical zeolite Y
  • hydrocarbon total oxidation
  • hydrogen peroxide
  • hydroxylamine
  • Keggin structure
  • lattice oxygen mobility
  • layered perovskite
  • MnOx
  • modified catalysts
  • n/a
  • Nanoparticles
  • NH3-SCR
  • organic pollutant
  • palladium cobalt nanoparticles
  • perovskite
  • phenol
  • photocatalysis
  • photocatalytic degradation
  • photocatalytic degradation of amoxicillin
  • platinum-based catalyst
  • polyacrylonitrile hollow nanospheres
  • pyrrolic/pyridone nitrogen
  • redox properties
  • simulated solar irradiation
  • sulfur and water resistance
  • Surface modification
  • surface plasmon resonance effect
  • titanate nanorods
  • zeolite Y
  • ZnO/CuO/g-C3N4

Links

DOI: 10.3390/books978-3-0365-6726-6

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