Magnetization Reversal in Chemically Synthesized Hexagonal Cobalt Microplatelets

Mahato, B. K. ; Ganguly, A. ; Rana, B. ; Barman, A. (2012) Magnetization Reversal in Chemically Synthesized Hexagonal Cobalt Microplatelets The Journal of Physical Chemistry C, 116 (41). pp. 22057-22062. ISSN 1932-7447

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Official URL: http://doi.org/10.1021/jp307144j

Related URL: http://dx.doi.org/10.1021/jp307144j

Abstract

We report the magnetization reversal modes in hexagonal cobalt microplatelets prepared via the solvothermal chemical synthesis method. Experimental results do not reflect any effect of anisotropy due to the shape of an individual platelet and the shape of the overall geometry of the ensemble of platelets. Micromagnetic simulations on a single hexagonal cobalt platelet demonstrate different kinds of reversal modes depending upon the direction of the applied magnetic field, whereas for a group of three platelets the reversal modes of a single platelet are manifested in a slightly modified form due to the weak magnetostatic interactions among themselves. In this case, a poor qualitative agreement is observed with the experimental hysteresis loops. A much better qualitative agreement with the experimental loops is observed for a random ensemble of seven platelets, and a strongly collective magnetization reversal is observed in this case.

Item Type:Article
Source:Copyright of this article belongs to American Chemical Society.
ID Code:116232
Deposited On:08 Apr 2021 04:48
Last Modified:08 Apr 2021 04:48

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