Add to ORKGInternational audienceAddition of Co2(Co)9 and Ru3(CO)12 on preformed monodisperse iron(0) nanoparticles (Fe(0) NPs) at 150 °C under H2 leads to monodisperse core–shell Fe@FeCo NPs and to a thin discontinuous Ru(0) layer supported on the initial Fe(0) NPs. The new complex NPs were studied by state-of-the-art transmission electron microscopy techniques as well as X-ray diffraction, Mössbauer spectroscopy, and magnetic measurements. These particles display large heating powers (SAR) when placed in an alternating magnetic field. The combination of magnetic and surface catalytic properties of these novel objects were used to demonstrate a new concept: the possibility of performing Fischer–Tropsch syntheses by heating the catalytic nanoparticles...
We have produced Co, Cu, and Fe nano-particles by Laser-induced solution deposition (LISD) as eviden...
International audienceTo shed light on the factors governing the stability and surface properties of...
Magnetically induced catalysis using magnetic nanoparticles (MagNPs) as heating agents is a new effi...
International audienceInduction heating of magnetic nanoparticles (NPs) has been recently explored a...
International audienceThe use of magnetic nanoparticles to convert electromagnetic energy into heat ...
International audienceMagnetic nanoparticles heve recently been used as heating agents in heterogene...
International audienceMagnetic heating by nanoparticles has recently been successfully employed in h...
The conversion of diverse non-petroleum carbon elements, such as coal, biomass, natural/shale gas, a...
Noble metals are commonly used in order to accelerate the NH3BH3 hydrolysis for H2 production as het...
International audienceA magnetically induced catalysis can be promoted taking advantage of optimal h...
Magnetic nanoparticles can generate heat when exposed to an alternating magnetic field. Their heatin...
International audienceNi60Co40 nanoparticles supported on γ-Al2O3 capable of simultaneously catalysi...
Tunable nanostructures that feature a high surface area are firmly attached to a conducting substrat...
Enzymatic and thermochemical catalysis are both important industrial processes. However, the thermal...
Featured Application Metallic nanoparticles with a high value of magnetization have potential intere...
We have produced Co, Cu, and Fe nano-particles by Laser-induced solution deposition (LISD) as eviden...
International audienceTo shed light on the factors governing the stability and surface properties of...
Magnetically induced catalysis using magnetic nanoparticles (MagNPs) as heating agents is a new effi...
International audienceInduction heating of magnetic nanoparticles (NPs) has been recently explored a...
International audienceThe use of magnetic nanoparticles to convert electromagnetic energy into heat ...
International audienceMagnetic nanoparticles heve recently been used as heating agents in heterogene...
International audienceMagnetic heating by nanoparticles has recently been successfully employed in h...
The conversion of diverse non-petroleum carbon elements, such as coal, biomass, natural/shale gas, a...
Noble metals are commonly used in order to accelerate the NH3BH3 hydrolysis for H2 production as het...
International audienceA magnetically induced catalysis can be promoted taking advantage of optimal h...
Magnetic nanoparticles can generate heat when exposed to an alternating magnetic field. Their heatin...
International audienceNi60Co40 nanoparticles supported on γ-Al2O3 capable of simultaneously catalysi...
Tunable nanostructures that feature a high surface area are firmly attached to a conducting substrat...
Enzymatic and thermochemical catalysis are both important industrial processes. However, the thermal...
Featured Application Metallic nanoparticles with a high value of magnetization have potential intere...
We have produced Co, Cu, and Fe nano-particles by Laser-induced solution deposition (LISD) as eviden...
International audienceTo shed light on the factors governing the stability and surface properties of...
Magnetically induced catalysis using magnetic nanoparticles (MagNPs) as heating agents is a new effi...