An organic phase transmetallation approach for synthesis of hollow Ni-Au nanocomposites with tunable cavity sizeElectronic supplementary information (ESI) available: Particle size distribution histogram of phase transferred Ni nanoparticles (SI-1), raw data of zeta potential of phase transferred Ni nanoparticles (SI-2), EDX spectra of (A) Sample-1 (B) Sample-2 and (C) Sample-3 of Ni-Au nanocomposites (SI-3). See DOI: 10.1039/c8nj03668c

An organic phase transmetallation approach for synthesis of hollow Ni-Au nanocomposites with tunable cavity sizeElectronic supplementary information (ESI) available: Particle size distribution histogram of phase transferred Ni nanoparticles (SI-1), raw data of zeta potential of phase transferred Ni nanoparticles (SI-2), EDX spectra of (A) Sample-1 (B) Sample-2 and (C) Sample-3 of Ni-Au nanocomposites (SI-3). See DOI: 10.1039/c8nj03668c

Ni-Au nanocomposites in the form of hollow spheres with controlled cavity size have been successfully synthesized by the transmetallation reaction between hydrophobized Ni nanoparticles and hydrophobized Au precursors. This can be considered as a fairly unique synthesis strategy that does not requir...

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Hauptverfasser: Sardar, Debasmita, Ahmed, Md Azaharuddin, Bandyopadhyay, Sudipta, Ghosalya, Manoj Kumar, Bala, Tanushree
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Ahmed, Md Azaharuddin
Bandyopadhyay, Sudipta
Ghosalya, Manoj Kumar
Bala, Tanushree
description Ni-Au nanocomposites in the form of hollow spheres with controlled cavity size have been successfully synthesized by the transmetallation reaction between hydrophobized Ni nanoparticles and hydrophobized Au precursors. This can be considered as a fairly unique synthesis strategy that does not require any additional external reductants. The synthesis is carried out in a nonpolar solvent and precise tuning of the cavity size has been achieved only by varying the ratio of the two reacting components. A detailed characterization has been performed via UV-vis spectroscopy, XPS, TEM, EDAX, and SEM. The mechanistic aspect is established from FTIR. SQUID-VSM confirmed the magnificent superparamagnetism of the nanocomposites. Hydrophobized HAuCl 4 entered Ni nanoparticles through the fractures on the surface initiating transmetallation at the centre, yielding hollow Ni-Au composites.
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title An organic phase transmetallation approach for synthesis of hollow Ni-Au nanocomposites with tunable cavity sizeElectronic supplementary information (ESI) available: Particle size distribution histogram of phase transferred Ni nanoparticles (SI-1), raw data of zeta potential of phase transferred Ni nanoparticles (SI-2), EDX spectra of (A) Sample-1 (B) Sample-2 and (C) Sample-3 of Ni-Au nanocomposites (SI-3). See DOI: 10.1039/c8nj03668c
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