Your search keyword '"Dragos-Pinzaru, Oana-Georgiana"' showing total 2 results

1. High Catalytic Activity of Co x Pt 100−x Alloys for Phenolic Compound Reduction.

Author

Dragos-Pinzaru, Oana-Georgiana, Buema, Gabriela, Racila, Luiza, Ababei, Gabriel, Borza, Firuta, Stoian, George, Tabakovic, Ibro, and Lupu, Nicoleta

Subjects

*CATALYTIC activity, *ALLOYS, *CRYSTAL structure, *AQUEOUS solutions, *ELECTROPLATING

Abstract

In this study, we report the influence of the Pt concentration in CoxPt100−x alloys on the catalytic activity of the alloys for 4-nitrophenol (4-NP) reduction. More precisely, a series of CoxPt100−x alloys with a Pt concentration ranging between 60% and 95% were prepared using electrodeposition at controlled potentials from stable hexachloroplatinate aqueous solution. The Pt concentration was tuned by varying the electrodeposition potential from −0.6 to −0.9 V. The changes in the CoxPt100−x alloy microstructure and crystalline structure have been investigated using SEM and TEM analysis. Our results show that the microstructure and the crystalline structure of the as-prepared materials do not depend on the electrodeposition potential. However, the catalytic activity of CoxPt100−x alloys is closely correlated with the potential applied during electrochemical synthesis, hence the Pt content. We demonstrated that the synthesized materials present a high catalytic activity (approx. 90%) after six cycles of reusability despite the fact that the Pt content of the as-prepared alloys decreases. The easy preparation method that guarantees more than 97% catalytic activity of the CoxPt100−x alloys, the easy recovery from solution, and the possibility of reusing the CoxPt100−x alloys are the benefits of the present study. [ABSTRACT FROM AUTHOR]

Published

2024

2. Effect of the Preparation Conditions on the Magnetic Coercivity of CoPt Alloy Nanowires.

Author

Tibu, Mihai, Lupu, Nicoleta, and Dragos-Pinzaru, Oana-Georgiana

Subjects

NANOWIRES, COERCIVE fields (Electronics), CRYSTAL structure, ALLOYS, MAGNETIC properties, ELECTROPLATING

Abstract

In this paper, 3 µm length and 200 nm diameter CoPt nanowire arrays (NWs) with different Co contents were prepared by electrodeposition at a controlled potential from an aqueous hexachloroplatinate solution. The synthesis occurred at two different solution pH values (2.5 and 5.5) in an electrochemical bath free of additives, as well as with saccharin as an organic additive. A complete morphological, compositional, structural and magnetic characterization of the as-prepared nanowires has been carried out. The results show that, by controlling the electrodeposition conditions, the Co content of the alloy can be tuned from 16% to 92%. The crystalline structure of the as-deposited compounds can also be controlled, with the obtained data showing that the face-centered cubic (fcc) crystalline structure changes into a hexagonal close-packed (hcp) structure when saccharin is used as an organic additive during the electrodeposition. The changes in the alloy's composition and crystalline structure strongly influence the magnetic properties of the NW's arrays. [ABSTRACT FROM AUTHOR]

Published

2022