An advancement in the synthesis of unique soft magnetic CoCuFeNiZn high entropy alloy thin films

An advancement in the synthesis of unique soft magnetic CoCuFeNiZn high entropy alloy thin films

Abstract Discovery of advanced soft-magnetic high entropy alloy (HEA) thin films are highly pursued to obtain unidentified functional materials. The figure of merit in current nanocrystalline HEA thin films relies in integration of a simple single-step electrochemical approach with a complex HEA sys...

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Main Authors: Chokkakula L. P. Pavithra, Reddy Kunda Siri Kiran Janardhana, Kolan Madhav Reddy, Chandrasekhar Murapaka, Joydip Joardar, Bulusu V. Sarada, Rameez R. Tamboli, Yixuan Hu, Yumeng Zhang, Xiaodong Wang, Suhash Ranjan Dey
Format: Article
Language:English
Published: Nature Publishing Group 2021-04-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-87786-8
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spelling doaj-5b5cfa56ad254b94b1a6afce5ce479702021-04-25T11:35:03ZengNature Publishing GroupScientific Reports2045-23222021-04-011111810.1038/s41598-021-87786-8An advancement in the synthesis of unique soft magnetic CoCuFeNiZn high entropy alloy thin filmsChokkakula L. P. Pavithra0Reddy Kunda Siri Kiran Janardhana1Kolan Madhav Reddy2Chandrasekhar Murapaka3Joydip Joardar4Bulusu V. Sarada5Rameez R. Tamboli6Yixuan Hu7Yumeng Zhang8Xiaodong Wang9Suhash Ranjan Dey10Department of Materials Science and Metallurgical Engineering, Indian Institute of Technology - HyderabadDepartment of Materials Science and Metallurgical Engineering, Indian Institute of Technology - HyderabadState Key Laboratory of Metal Matrix Composites, School of Materials Science and Engineering, Shanghai Jiao Tong UniversityDepartment of Materials Science and Metallurgical Engineering, Indian Institute of Technology - HyderabadInternational Advanced Research Centre for Powder Metallurgy and New Materials (ARCI)International Advanced Research Centre for Powder Metallurgy and New Materials (ARCI)Department of Materials Science and Metallurgical Engineering, Indian Institute of Technology - HyderabadState Key Laboratory of Metal Matrix Composites, School of Materials Science and Engineering, Shanghai Jiao Tong UniversityState Key Laboratory of Metal Matrix Composites, School of Materials Science and Engineering, Shanghai Jiao Tong UniversityState Key Laboratory of Metal Matrix Composites, School of Materials Science and Engineering, Shanghai Jiao Tong UniversityDepartment of Materials Science and Metallurgical Engineering, Indian Institute of Technology - HyderabadAbstract Discovery of advanced soft-magnetic high entropy alloy (HEA) thin films are highly pursued to obtain unidentified functional materials. The figure of merit in current nanocrystalline HEA thin films relies in integration of a simple single-step electrochemical approach with a complex HEA system containing multiple elements with dissimilar crystal structures and large variation of melting points. A new family of Cobalt–Copper–Iron–Nickel–Zinc (Co–Cu–Fe–Ni–Zn) HEA thin films are prepared through pulse electrodeposition in aqueous medium, hosts nanocrystalline features in the range of ~ 5–20 nm having FCC and BCC dual phases. The fabricated Co–Cu–Fe–Ni–Zn HEA thin films exhibited high saturation magnetization value of ~ 82 emu/g, relatively low coercivity value of 19.5 Oe and remanent magnetization of 1.17%. Irrespective of the alloying of diamagnetic Zn and Cu with ferromagnetic Fe, Co, Ni elements, the HEA thin film has resulted in relatively high saturation magnetization which can provide useful insights for its potential unexplored applications.https://doi.org/10.1038/s41598-021-87786-8
collection DOAJ
language English
format Article
sources DOAJ
author Chokkakula L. P. Pavithra
Reddy Kunda Siri Kiran Janardhana
Kolan Madhav Reddy
Chandrasekhar Murapaka
Joydip Joardar
Bulusu V. Sarada
Rameez R. Tamboli
Yixuan Hu
Yumeng Zhang
Xiaodong Wang
Suhash Ranjan Dey
spellingShingle Chokkakula L. P. Pavithra
Reddy Kunda Siri Kiran Janardhana
Kolan Madhav Reddy
Chandrasekhar Murapaka
Joydip Joardar
Bulusu V. Sarada
Rameez R. Tamboli
Yixuan Hu
Yumeng Zhang
Xiaodong Wang
Suhash Ranjan Dey
An advancement in the synthesis of unique soft magnetic CoCuFeNiZn high entropy alloy thin films
Scientific Reports
author_facet Chokkakula L. P. Pavithra
Reddy Kunda Siri Kiran Janardhana
Kolan Madhav Reddy
Chandrasekhar Murapaka
Joydip Joardar
Bulusu V. Sarada
Rameez R. Tamboli
Yixuan Hu
Yumeng Zhang
Xiaodong Wang
Suhash Ranjan Dey
author_sort Chokkakula L. P. Pavithra
title An advancement in the synthesis of unique soft magnetic CoCuFeNiZn high entropy alloy thin films
title_short An advancement in the synthesis of unique soft magnetic CoCuFeNiZn high entropy alloy thin films
title_full An advancement in the synthesis of unique soft magnetic CoCuFeNiZn high entropy alloy thin films
title_fullStr An advancement in the synthesis of unique soft magnetic CoCuFeNiZn high entropy alloy thin films
title_full_unstemmed An advancement in the synthesis of unique soft magnetic CoCuFeNiZn high entropy alloy thin films
title_sort advancement in the synthesis of unique soft magnetic cocufenizn high entropy alloy thin films
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-04-01
description Abstract Discovery of advanced soft-magnetic high entropy alloy (HEA) thin films are highly pursued to obtain unidentified functional materials. The figure of merit in current nanocrystalline HEA thin films relies in integration of a simple single-step electrochemical approach with a complex HEA system containing multiple elements with dissimilar crystal structures and large variation of melting points. A new family of Cobalt–Copper–Iron–Nickel–Zinc (Co–Cu–Fe–Ni–Zn) HEA thin films are prepared through pulse electrodeposition in aqueous medium, hosts nanocrystalline features in the range of ~ 5–20 nm having FCC and BCC dual phases. The fabricated Co–Cu–Fe–Ni–Zn HEA thin films exhibited high saturation magnetization value of ~ 82 emu/g, relatively low coercivity value of 19.5 Oe and remanent magnetization of 1.17%. Irrespective of the alloying of diamagnetic Zn and Cu with ferromagnetic Fe, Co, Ni elements, the HEA thin film has resulted in relatively high saturation magnetization which can provide useful insights for its potential unexplored applications.
url https://doi.org/10.1038/s41598-021-87786-8
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