Intermetallic Au3LixM1-x (M = Fe, Ni or Co) nanoalloys: Effect of synthetic conditions on the composition and order-disorder transition

“…To have access to the charge carrier type, mass, and density, we use magnetic circular dichroism. Even if MCD spectroscopy was originally developed to study molecular systems, this technique has been applied also to different types of nanoparticles, including noble metals, nanoalloys, and magnetic and magnetic–plasmonic heterostructures. − Recently, MCD has been proposed to extract carrier parameters in plasmonic doped semiconductor nanoparticles , and is here applied for the first time to kesterite nanoparticles with variable Sn contents. The MCD spectrum of spherical plasmonic nanoparticles is characterized by a derivative-like signal, which crosses zero at the LSPR energy.…”

Environmentally Friendly Pathway to Kesterite Nanoparticles with Controlled Sn Content: An In-Depth Study of Magnetic and Optical Properties

“…To have access to the charge carrier type, mass, and density, we use magnetic circular dichroism. Even if MCD spectroscopy was originally developed to study molecular systems, this technique has been applied also to different types of nanoparticles, including noble metals, nanoalloys, and magnetic and magnetic–plasmonic heterostructures. − Recently, MCD has been proposed to extract carrier parameters in plasmonic doped semiconductor nanoparticles , and is here applied for the first time to kesterite nanoparticles with variable Sn contents. The MCD spectrum of spherical plasmonic nanoparticles is characterized by a derivative-like signal, which crosses zero at the LSPR energy.…”

Environmentally Friendly Pathway to Kesterite Nanoparticles with Controlled Sn Content: An In-Depth Study of Magnetic and Optical Properties

“…Various synthesis techniques have been investigated in the past to generate platinum iron nanoalloys with different sizes, shapes, and stoichiometries. The co-reduction of platinum and iron materials via low-pressure emulsion protocols [41,[115][116][117][118], the high-pressure polyol route, and the photothermal technique are used for the synthesis of magnetic nanoalloys [38,[119][120][121][122][123][124].…”

Recent Advances in Synergistic Effect of Nanoparticles and Its Biomedical Application

Plasmonic and magnetic properties of ion implantation synthesized AuNi nanoalloys embedded in fused quartz matrix