Controlled growth of hexagonal nanocrystals Co and Gd co-doping ZnO by hydrothermal method-Reference-Cited by-同舟云学术

Controlled growth of hexagonal nanocrystals Co and Gd co-doping ZnO by hydrothermal method

Published:2020-12-01 Issue:4 Volume:9 Page:1032-1040
ISSN:2046-0147
Container-title:Emerging Materials Research
language:en
Short-container-title:Emerging Materials Research

Author:

Alrowaili Ziyad A¹,Abdeltwab Eslam²,Atta Ali³,Taher Fatma A⁴

Affiliation:

1. Physics Department, College of Science, Jouf University, Sakaka, Saudi Arabia

2. Physics Department, College of Science, Jouf University, Sakaka, Saudi Arabia; Physics Department, Faculty of Science, Al-Azhar University (Girls), Cairo, Egypt

3. Physics Department, College of Science, Jouf University, Sakaka, Saudi Arabia; Radiation Physics Department, National Center for Radiation Research and Technology, Atomic Energy Authority, Cairo, Egypt

4. Chemistry Department, Faculty of Science, Al-Azhar University (Girls), Cairo, Egypt; Al-Azhar Technology Incubator, Cairo, Egypt

Abstract

The control of nanostructured zinc oxide (ZnO) materials is essential for the development of smart and functional nanoscale devices. Using controlled hydrothermal growth conditions, cobalt (Co)- and gadolinium (Gd)-co-doped zinc oxide hexagonal nanocrystals were synthesized at a low temperature (70°C). The role of hexamethylenetetramine (HMTA; C6H12N4) in engineering pure and doped zinc oxide morphology was examined. The results indicated that the hexagonal plates are transformed into a hexagonal flowerlike structure by changing the molar ratio of HMTA/precursors. The possible growth mechanism of the formation of hexagonal nanocrystals (hexagonal plates and nanoflowerlike structure) is discussed. The magnetic properties exhibited enhanced ferromagnetism after the incorporation of gadolinium into the zinc oxide matrix. An enhancement in saturation magnetization is discussed mainly in correlation with the strain effect. These doped zinc oxide nanostructures are expected to drive improvements mainly in the performance of spintronic devices.

Publisher

Thomas Telford Ltd.

Subject

Condensed Matter Physics,General Materials Science

Link

https://www.icevirtuallibrary.com/doi/pdf/10.1680/jemmr.19.00133

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