Keywords: دی اکسید روانسیم; Electrodeposition; Ruthenium dioxide; Ascorbic acid; Uric acid; Nonenzymatic amperometric sensor;
مقالات ISI دی اکسید روانسیم (ترجمه نشده)
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Keywords: دی اکسید روانسیم; Ruthenium dioxide; Ethylene oxychlorination; DFT; HCl oxidation; Vinyl chloride; Coverage effects;
Keywords: دی اکسید روانسیم; Graphite oxide; Ruthenium dioxide; Nanocatalyst; Imines; Coupling reactions;
Keywords: دی اکسید روانسیم; Lithium-oxygen batteries; Titanium dioxide; Catalyst; Ruthenium dioxide; Carbon-free electrode
Keywords: دی اکسید روانسیم; Electrochemical double layer capacitor; Graphene; Ruthenium dioxide; Carbon nanotube; Thermal chemical vapor deposition;
Keywords: دی اکسید روانسیم; Protic ionic liquid; ruthenium dioxide; supercapacitors; pseudocapacitance
Keywords: دی اکسید روانسیم; Ruthenium dioxide; Chemical vapor deposition; Nitrogen-doped carbon nanotubes; Oxygen evolution reaction
Enhanced stability and electrocatalytic properties of Ti/RuxIr1âxO2 anodes produced by a new laser process
Keywords: دی اکسید روانسیم; MMOs; Laser processing; Ruthenium dioxide; Iridium dioxide; Electrocatalysis;
Hydrogen adsorption and reaction on RuO2(110)
Keywords: دی اکسید روانسیم; Ruthenium dioxide; Hydrogen adsorption; Hydrogen reaction; Scanning tunneling microscopy;
Facile electrodepositing processed of RuO2-graphene nanosheets-CNT composites as a binder-free electrode for electrochemical supercapacitors
Keywords: دی اکسید روانسیم; Ruthenium dioxide; Electrophoretic; Graphene nanosheets; CNT; Supercapacitor;
Simulations of the thermodynamics and kinetics of NH3 at the RuO2 (110) surface
Keywords: دی اکسید روانسیم; Catalysis; Ruthenium dioxide; Thermodynamics; Kinetics; Sensor; Surface;
Hydrogen diffusion behavior and vacancy interaction behavior in OsO2 and RuO2 by ab initio calculations
Keywords: دی اکسید روانسیم; Hydrogen diffusion; Osmium dioxide; Ruthenium dioxide; Vacancy defects;
Improved Electrochemical Properties of Spinel LiNi0.5Mn1.5O4 Cathode Materials by Surface Modification with RuO2 Nanoparticles
Keywords: دی اکسید روانسیم; Lithium ion battery; Spinel material; Surface modification; Ruthenium dioxide; Electrochemical performance;
Biological application of RuO2 nanorods grown on a single carbon fiber for the real-time direct nitric oxide sensing
Keywords: دی اکسید روانسیم; Ruthenium dioxide; Nanorod; Nitric oxide; Microsensor; In vivo measurement;
Synthesis of RuO2 nanomaterials under dielectric barrier discharge plasma at atmospheric pressure – Influence of substrates on the morphology and application
Keywords: دی اکسید روانسیم; Ruthenium dioxide; Dielectric barrier discharge plasma; Substrate; Visible light; Photocatalysis; Methylene blue
Atomic scale insights into the initial oxidation of Ru(0001) using atomic oxygen
Keywords: دی اکسید روانسیم; Ruthenium dioxide; Oxide Cluster formation; Corrosion; Nucleation and growth; Oxide formation; Scanning tunneling microscopy;
RuxNb1âxO2 catalyst for the oxygen evolution reaction in proton exchange membrane water electrolysers
Keywords: دی اکسید روانسیم; Oxygen evolution reaction; PEM-water electrolysis; Ruthenium dioxide; Niobium pentoxide; Hydrogen generation;
Atomic scale insights into electrochemical versus gas phase oxidation of HCl over RuO2-based catalysts: A comparative review
Keywords: دی اکسید روانسیم; Deacon process; Chlorine evolution; Ruthenium dioxide; Electrocatalysis; Heterogeneous catalysis;
Fabrication of the array chlorine ion sensor based on microfluidic device framework
Keywords: دی اکسید روانسیم; Microfluidic device; Poly-dimethylsiloxane; Ruthenium dioxide; Photolithography technology; Etching technology; Sodium ion
Nanomechanical characterization of sputtered RuO2 thin film on silicon substrate for solid state electronic devices
Keywords: دی اکسید روانسیم; Ruthenium dioxide; Thin films; Elastic modulus; Interfacial toughness; Nanoindentation; Sputtering;
Pyridinium-based protic ionic liquids as electrolytes for RuO2 electrochemical capacitors
Keywords: دی اکسید روانسیم; Electrochemical capacitor; Pseudocapacitance; Energy-storage; Ruthenium dioxide; Room temperature molten salt; Structure–property relationships
Superior capacitive characteristics of RuO2 nanorods grown on carbon nanotubes
Keywords: دی اکسید روانسیم; Carbon nanotubes; Ruthenium dioxide; Electric double layer capacitor; Electrolyte concentration;
Oxygen evolution on nanocrystalline RuO2 and Ru0.9Ni0.1O2−δ electrodes – DEMS approach to reaction mechanism determination
Keywords: دی اکسید روانسیم; Oxygen evolution; DEMS; Ruthenium dioxide; Electrocatalysis
Deactivation and regeneration of RuO2·xH2O/CNT catalyst for aerobic oxidation of benzyl alcohol
Keywords: دی اکسید روانسیم; Carbon nanotube; Ruthenium dioxide; Aerobic oxidation; Benzyl alcohol; Deactivation; Regeneration
Direct comparison of the reactivity of the non-oxidic phase of Ru(0 0 0 1) and the RuO2 phase in the CO oxidation reaction
Keywords: دی اکسید روانسیم; CO oxidation; Ruthenium dioxide; Structure-activity correlation; In situ SXRD;
Ruthenium dioxide quartz crystal nano-balance
Keywords: دی اکسید روانسیم; QCM; QCN; Ruthenium dioxide; Mass sensor; Water adsorption; Copper deposition
Intimate interplay of theory and experiments in model catalysis
Keywords: دی اکسید روانسیم; Density functional theory calculations; Surface chemistry; Model catalysis; Ruthenium dioxide; CO oxidation; Deacox process;
Development of TiO2-supported RuO2 composite-incorporated Ni–P electrodes for amperometric measurement of ethanol
Keywords: دی اکسید روانسیم; Ethanol sensor; Electroless nickel coating; Mixed oxide composite; Electrochemical sensor; Ruthenium dioxide
Catalytic conversion of air-methane flow by nanostructured ruthenium dioxide: FTIR spectroscopy and modeling
Keywords: دی اکسید روانسیم; Ruthenium dioxide; Sol-gel process; Nanopowders; X-ray diffraction analysis; Catalytic properties; Infrared spectroscopy; Modeling approach;
Parallel oxygen and chlorine evolution on Ru1−xNixO2−y nanostructured electrodes
Keywords: دی اکسید روانسیم; OER; CER; DEMS; Ruthenium dioxide
Structure, microstructure, and size dependent catalytic properties of nanostructured ruthenium dioxide
Keywords: دی اکسید روانسیم; Ruthenium dioxide; Sol gel process; Nanopowders; X-ray diffraction analysis; Rietveld structure analysis; Electron microscopy; Catalytic properties; Infrared spectroscopy
Comment on “CO oxidation on ruthenium: The nature of the active catalytic surface” by D.W. Goodman, C.H.F. Peden, M.S. Chen
Keywords: دی اکسید روانسیم; Ruthenium Dioxide; Catalytic activity; CO oxidation;
Catalytic behaviors of ruthenium dioxide films deposited on ferroelectrics substrates, by spin coating process
Keywords: دی اکسید روانسیم; 81.20.Fw; 81.15.-z; 68.55.-a; 81.15.Aa; 82.45.Jn; 82.65.-s; 81.16.Hc; 82.80.Gk; 68.65.Ac; Ruthenium dioxide; Sol-gel processing; Multilayer; Infrared spectroscopy; Catalytic measurements;
Pseudocapacitive behaviour of RuO2 in a proton exchange ionic liquid
Keywords: دی اکسید روانسیم; Pseudocapacitance; Ruthenium dioxide; Ionic liquid; Coupled proton–electron transfer; Electrochemical capacitor
Nanoparticles for long-term stable, more selective MISiCFET gas sensors
Keywords: دی اکسید روانسیم; Sensors; Catalytic material; MISiCFET; Ruthenium dioxide;