Carbon-encapsulated nickel nanoparticles were used as the representative magnetic carbon-encapsulated nanoparticles for chemical functionalization. After oxidation with the mixed acid of H2SO4/HNO3 under a moderate ultrasonic bath, carboxylic acid groups (-COOH) were effectively generated on the fullerene-like carbon shells, which in turn were utilized to covalently link octadecylamine through an amide reaction. The whole chemical process is well characterized by many methods such as Fourier transform infrared spectroscopy, X-ray photoelectron spectroscopy, thermogravimetry-differential scanning calorimetry, transmission electron microscopy, and so on, and the self-consistent experimental results were obtained. The results suggested that the magnetic nanoparticles could be well protected, while their magnetic properties could be utilized to guide the transfer of the grafted functional species on the particle surface. This provides many possibilities for potential applications in chemical and biochemical fields.
A magnetically separable nanocatalyst consisting of 2−5-nm Pt particles dispersed on carbon-encapsulated
nickel nanoparticles has been artificially constructed. The magnetically separable function of the nanocatalyst
is well demonstrated by recycled hydrogenation of nitrobenzene to aniline. The construction process has
been clearly illuminated, which is composed of the nondestructive functionalization of magnetic Ni(C)
nanocapsules with carboxylic acid end groups and then the immobilization of Pt nanoparticles. This strategy
should be applicable to the construction of some other magnetically separable nanocatalysts.
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