The interactions between the surface of Ag colloids prepared by γ

The interactions between the surface of Ag colloids prepared by γ-irradiation and organic molecules containing DihydrotestosteroneDHT ic50 ethanol and C12H25NaSO4 were discussed by Wang and his group [43]. It was observed that these molecules can restrain the growth of Ag particles and produce a dendrite pattern. The interaction of metallic surfaces with

the solvent makes the surfaces become homogeneous; thus, Ag particles lost the anisotropy which played an important role in the formation of dendritic patterns. Another kind of stabilizer for metallic nanoparticles is inorganic compounds such as metal oxides. They were originally used as catalyst supports. Selleckchem ��-Nicotinamide The catalysts are generally

transition noble metals (Pt, Re, Rh, etc.) supported on various oxides. For example, Al2O3 supported Ni nanocluster was synthesized via γ-irradiation by Keghouche and his co-workers [44]. The solution of Ni(HCOO)2 · 7H2O, Cediranib molecular weight Al2O3, isopropanol, and ammonium hydroxide was γ-irradiated at a total dose of 100 kGy. Since alumina has an amphoteric character, it can play an important role in the fixation of metal ions. Bimetallic Nanoparticles When a mixed solution of two metal ionic precursors M+ and M’+ is irradiated, three main types of structures can be identified: intermetallic or alloyed structures, core/shell, and heterostructure [45, 46]. The reduction process of ionic solution is controlled by the respective redox potential of metallic ions which is the key factor to determine the structure of

resultant particles. Alloy, core/shell, and heterostructured nanoparticles Nanoparticles with alloy structure Isotretinoin form when initial reduction reactions follow by mix coalescence and association of atoms and clusters with unreacted ions. These alternate associations and then reduction reactions progressively build bimetallic alloyed clusters [24]. The mechanism of alloyed structure formation by radiolysis has been studied in detail, for example for Al3+ and Ni2+ ionic solution under gamma irradiation by Abedini and her co-workers [47]. Nickel ions can be reduced easier than aluminium ions, and as a result, when the precursor ion solution is irradiated, reduction occurs by successive steps. The unreacted ions are absorbed on the surface of the newly formed clusters to form a charged cluster. These ions then get reduced in situ by hydrated electrons to form alloyed structure. Different stoichiometries of Ag-Ni alloy nanoparticles were prepared from an aqueous solution containing AgClO4, NiSO4, sodium citrate, and methanol, in presence of PVA using the radiolytic method by Nenoff and her co-workers [48].

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