6533b836fe1ef96bd12a121f

RESEARCH PRODUCT

From Single Molecules to Nanostructured Functional Materials: Formation of a Magnetic Foam Catalyzed by Pd@FexO Heterodimers

Angela MöllerBastian BartonBastian BartonKarsten KorscheltWolfgang TremelMartin PanthöferMuhammad Nawaz TahirMuhammad Nawaz TahirUte KolbUte KolbMartin KluenkerVadim KsenofontovSergii I. ShylinFilipe NatalioFilipe Natalio

subject

NanostructureMaterials scienceHydrosilylationNucleationNanoparticleNanochemistry02 engineering and technology010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesNanomaterial-based catalyst0104 chemical scienceschemistry.chemical_compoundChemical engineeringchemistryAmphiphileGeneral Materials Science0210 nano-technologyHybrid material

description

Multicomponent nanostructures containing purely organic or inorganic as well as hybrid organic–inorganic components connected through a solid interface are, unlike conventional spherical particles, able to combine different or even incompatible properties within a single entity. They are multifunctional and resemble molecular amphiphiles, like surfactants or block copolymers, which makes them attractive for the self-assembly of complex structures, drug delivery, bioimaging, or catalysis. We have synthesized Pd@FexO heterodimer nanoparticles (NPs) to fabricate a macroporous, hydrophobic, magnetically active, three-dimensional (3D), and template-free hybrid foam capable of repeatedly separating oil contaminants from water. The Pd domains in the Pd@FexO heterodimers act as nanocatalysts for the hydrosilylation of polyhydrosiloxane and tetravinylsilane, while the FexO component confers magnetic properties to the final functional material. Pd@FexO heterodimers were synthesized by heterogeneous nucleation and g...

yearjournalcountryeditionlanguage
2017-12-07ACS Applied Nano Materials
https://doi.org/10.1021/acsanm.7b00051