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Synthesis and characterization of fibrous silver stearate

Magnesium is involved in energy production and storage, the breakdown of fatty acids, protein synthesis, DNA metabolism, the relaxation of both voluntary and involuntary muscle tissue, neuro-transmitter activity, and hormone regulation.

(The old ideathat diphtheria toxin blocks fatty acid burning by inhibiting the carnitine shuttlehas been replaced by the finding that the protein is a nonspecificand very potent inhibitor of protein synthesis.)

Synthesis and Characterization of Silver Nanoparticles …
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Stearate coated silver nanoparticles were synthesized in water medium through the chemical reduction method
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AB - This paper describes a new approach to the synthesis of PtAg alloy nanostructures rich in Pt at the surface through a selective electrochemical dissolution of Ag from PtAg alloy nanoparticles that are made from platinum acetylacetonate, Pt(acac)2, and silver stearate, Ag(St). The surface and bulk compositions, size, and architecture of these heterogeneous nanostructures are controlled synergistically by changing the upper limits of cycling potentials in perchloric acid (HClO4) aqueous solution to dissolve Ag deterministically. The structures and elemental distributions of Ag and Pt in the resulting heterogeneous nanoparticles are characterized by high-resolution transmission electron microscopy (HR-TEM), high-angle annular dark-field scanning transmission electron microscopy (HAADF-STEM) and energy-dispersive X-ray (EDX). These Pt-surface rich PtAg nanostructures exhibit much higher activity than Pt nanoparticles as electrocatalysts in formic acid oxidation reaction (FAOR).

N2 - This paper describes a new approach to the synthesis of PtAg alloy nanostructures rich in Pt at the surface through a selective electrochemical dissolution of Ag from PtAg alloy nanoparticles that are made from platinum acetylacetonate, Pt(acac)2, and silver stearate, Ag(St). The surface and bulk compositions, size, and architecture of these heterogeneous nanostructures are controlled synergistically by changing the upper limits of cycling potentials in perchloric acid (HClO4) aqueous solution to dissolve Ag deterministically. The structures and elemental distributions of Ag and Pt in the resulting heterogeneous nanoparticles are characterized by high-resolution transmission electron microscopy (HR-TEM), high-angle annular dark-field scanning transmission electron microscopy (HAADF-STEM) and energy-dispersive X-ray (EDX). These Pt-surface rich PtAg nanostructures exhibit much higher activity than Pt nanoparticles as electrocatalysts in formic acid oxidation reaction (FAOR).

Synthesis and Tribology Properties of Stearate Coated …

This paper describes a new approach to the synthesis of PtAg alloy nanostructures rich in Pt at the surface through a selective electrochemical dissolution of Ag from PtAg alloy nanoparticles that are made from platinum acetylacetonate, Pt(acac)2, and silver stearate, Ag(St). The surface and bulk compositions, size, and architecture of these heterogeneous nanostructures are controlled synergistically by changing the upper limits of cycling potentials in perchloric acid (HClO4) aqueous solution to dissolve Ag deterministically. The structures and elemental distributions of Ag and Pt in the resulting heterogeneous nanoparticles are characterized by high-resolution transmission electron microscopy (HR-TEM), high-angle annular dark-field scanning transmission electron microscopy (HAADF-STEM) and energy-dispersive X-ray (EDX). These Pt-surface rich PtAg nanostructures exhibit much higher activity than Pt nanoparticles as electrocatalysts in formic acid oxidation reaction (FAOR).

SILVER stearate synthesis
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