Keywords: تجزیه یدید هیدروژن; Carbon nanotubes; Palladium; Catalytic activity; Hydrogen iodide decomposition; Sulfur iodine cycle;
مقالات ISI تجزیه یدید هیدروژن (ترجمه نشده)
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Keywords: تجزیه یدید هیدروژن; Hydrogen production; Thermochemical cycle; SI cycle; Hydrogen iodide decomposition; Corrosion resistance;
Keywords: تجزیه یدید هیدروژن; Sulfur-Iodine (S-I) cycle; Hydrogen iodide decomposition; Catalyst; Surface reaction; Langmuir-Hinshelwood model; Modeling;
Keywords: تجزیه یدید هیدروژن; Hydrogen production; SI cycle; Hydrogen iodide decomposition; Activated carbon catalysts;
Effect of rare earth (RE - La, Pr, Nd) metal-doped ceria nanoparticles on catalytic hydrogen iodide decomposition for hydrogen production
Keywords: تجزیه یدید هیدروژن; Ceria; Lanthanum; Praseodymium; Neodymium; Catalytic activity; Hydrogen iodide decomposition;
Preparation of an H2-permselective silica membrane for the separation of H2 from the hydrogen iodide decomposition reaction in the iodine-sulfur process
Keywords: تجزیه یدید هیدروژن; Thermochemical hydrogen production; Hydrogen iodide decomposition; Silica membrane; Chemical vapor deposition;
Influence of Ir content on the activity of Pt-Ir/C catalysts for hydrogen iodide decomposition in iodine-sulfur cycle
Keywords: تجزیه یدید هیدروژن; Hydrogen iodide decomposition; Thermochemical hydrogen production; Iodine-sulfur cycle; Supported Pt-Ir catalysts; Characterization;
Effects of the second metals on the active carbon supported Pt catalysts for HI decomposition in the iodine-sulfur cycle
Keywords: تجزیه یدید هیدروژن; Hydrogen iodide decomposition; Iodine-sulfur cycle; Thermochemical hydrogen production; Supported Pt catalysts; Pt-based bimetallic catalysts;
Hydrogen production by HI decomposition over nickel–ceria–zirconia catalysts via the sulfur–iodine thermochemical water-splitting cycle
Keywords: تجزیه یدید هیدروژن; Hydrogen production; Sulfur–iodine cycle; Hydrogen iodide decomposition; Ceria catalysts
Stability of nickel catalyst supported by mesoporous alumina for hydrogen iodide decomposition and hybrid decomposer development in sulfur-iodine hydrogen production cycle
Keywords: تجزیه یدید هیدروژن; Hydrogen production; Thermo-chemical cycle; SI cycle; Hydrogen iodide decomposition; Nickel alumina catalyst;
HI decomposition over PtNi/C bimetallic catalysts prepared by electroless plating
Keywords: تجزیه یدید هیدروژن; Hydrogen iodide decomposition; Iodine-sulfur cycle; Thermochemical hydrogen production; PtNi bimetallic catalysts; Electroless plating;
HI decomposition over active carbon supported binary Ni–Pd catalysts prepared by electroless plating
Keywords: تجزیه یدید هیدروژن; Hydrogen iodide decomposition; Iodine–sulfur cycle; Thermochemical hydrogen production; Ni–Pd bimetallic catalysts; Electroless plating
Effects of the composition on the active carbon supported Pd–Pt bimetallic catalysts for HI decomposition in the iodine–sulfur cycle
Keywords: تجزیه یدید هیدروژن; Hydrogen iodide decomposition; Iodine–sulfur cycle; Thermochemical hydrogen production; Supported platinum catalysts; Pd–Pt bimetallic catalysts
Comparisons of Pt catalysts supported on active carbon, carbon molecular sieve, carbon nanotubes and graphite for HI decomposition at different temperature
Keywords: تجزیه یدید هیدروژن; Hydrogen iodide decomposition; Iodine–sulfur cycle; Thermochemical hydrogen production; Supported platinum catalysts; Carbon nanotubes
The HI catalytic decomposition for the lab-scale H2 producing apparatus of the iodine–sulfur thermochemical cycle
Keywords: تجزیه یدید هیدروژن; Thermochemical hydrogen production; Iodine–sulfur process; Hydrogen iodide decomposition; Supported platinum catalysts
Activity and stability of Pt catalysts supported on carbon nanotubes, active carbon and γ-Al2O3 for HI decomposition in iodine–sulfur thermochemical cycle
Keywords: تجزیه یدید هیدروژن; Hydrogen iodide decomposition; Iodine–sulfur cycle; Thermochemical hydrogen production; Supported platinum catalysts; Electroless plating method
Decomposition of hydrogen iodide via wood-based activated carbon catalysts for hydrogen production
Keywords: تجزیه یدید هیدروژن; Hydrogen production; Sulfur-iodine cycle; Hydrogen iodide decomposition; Activated carbon
Activated carbon catalysts for the production of hydrogen via the sulfur–iodine thermochemical water splitting cycle
Keywords: تجزیه یدید هیدروژن; Thermochemical water splitting; Sulfur–iodine cycle; Hydrogen iodide decomposition; Hydrogen production; Activated carbon catalyst
Decomposition of hydrogen iodide on Pt/C-based catalysts for hydrogen production
Keywords: تجزیه یدید هیدروژن; Hydrogen iodide decomposition; Hydrogen production; Conversion; Adsorption