Electrolyte pH dependence of composition, roughness parameters, particle diameter and magnetic features of nanostructured Fe‐Co‐Ni/ITO deposits prepared by electrochemical deposition method

Author:

Saraç Umut1ORCID,Trong Dung Nguyen23ORCID,Baykul M. Celalettin4ORCID,Long Van Cao2ORCID,Dang Phu Nguyen5,Lan Doan Phuong6ORCID,Ţălu Ştefan7ORCID

Affiliation:

1. Department of Science Education Bartın University Bartın Turkey

2. Institute of Physics University of Zielona Góra Zielona Góra Poland

3. Faculty of Physics Hanoi National University of Education Hanoi Vietnam

4. Department of Metallurgical and Materials Engineering Eskisehir Osmangazi University Eskişehir Turkey

5. Faculty of Electronics and Telecommunications VNU‐University of Engineering and Technology Hanoi Vietnam

6. Faculty of Natural Sciences and Technology Tay Bac University Sonla Vietnam

7. The Directorate of Research Development and Innovation Management (DMCDI) Technical University of Cluj‐Napoca Cluj‐Napoca Cluj Romania

Abstract

AbstractThe composition, structural features, surface morphology, roughness parameters, particle size, and magnetic features of nanostructured Fe‐Co‐Ni deposits manufactured on conducting indium tin oxide‐coated glasses at various electrolyte pH values are studied. The deposit produced at low electrolyte pH contains slightly higher Fe and Co contents but lower Ni content compared to deposits fabricated at high pH values. Further composition analysis confirms that the reduction rates of Fe2+ and Co2+ are higher than the Ni2+ reduction rate. The films consist of nano‐sized crystallites with a strong [111] preferred orientation. The results also reveal that the crystallization of the thin films is affected by the electrolyte pH. Surface analysis shows that the deposit surfaces are composed of nano‐sized particles with different diameters. The mean particle diameter and surface roughness decrease as the pH of the electrolyte decreases. The effect of the electrolyte pH on the morphology is also discussed in terms of surface skewness and kurtosis parameters. Magnetic analysis shows that the resultant deposits have in‐plane hysteresis loops with low and close SQR parameters ranging from 0.079 to 0.108. The results also reveal that the coercive field of the deposits increases from 29.4 Oe to 41.3 Oe as the electrolyte pH decreases from 4.7 to 3.2.

Publisher

Wiley

Subject

Histology,Pathology and Forensic Medicine

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