Cobaltocene-Coupled Cumulene: A Perspective on Chiral Magnet and Spintronics Device Design

Suranjan Shil; Sabyasachi Sen

doi:10.1021/acs.inorgchem.0c01825

Cobaltocene-Coupled Cumulene: A Perspective on Chiral Magnet and Spintronics Device Design

Suranjan Shil^*, Sabyasachi Sen

^*Corresponding author for this work

Manipal Centre for Natural Sciences, Manipal

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

We present a computational study of the magnetic and electronic transport properties of cumulene-based monocobaltocene and dicobaltocene complexes. We show that the odd cumulene-based dicobaltocene complexes are a potential candidate for the ferromagnetic material. The calculation of the zero-field splitting (ZFS) parameter D confirms that the odd cumulene-based dicobaltocene complexes can be used as potential single-molecule magnets. The monocobaltocene-based complexes are found to be a good spin filter, as demonstrated by the calculation of the transmission and current versus voltage curve. The orthogonal SOMOs of the dicobaltocene complexes make them weak or a nonspin filter despite having a high spin ground state.

Original language	English
Pages (from-to)	16905-16912
Number of pages	8
Journal	Inorganic Chemistry
Volume	59
Issue number	23
DOIs	https://doi.org/10.1021/acs.inorgchem.0c01825
Publication status	Published - 07-12-2020

All Science Journal Classification (ASJC) codes

Physical and Theoretical Chemistry
Inorganic Chemistry

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10.1021/acs.inorgchem.0c01825

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title = "Cobaltocene-Coupled Cumulene: A Perspective on Chiral Magnet and Spintronics Device Design",

abstract = "We present a computational study of the magnetic and electronic transport properties of cumulene-based monocobaltocene and dicobaltocene complexes. We show that the odd cumulene-based dicobaltocene complexes are a potential candidate for the ferromagnetic material. The calculation of the zero-field splitting (ZFS) parameter D confirms that the odd cumulene-based dicobaltocene complexes can be used as potential single-molecule magnets. The monocobaltocene-based complexes are found to be a good spin filter, as demonstrated by the calculation of the transmission and current versus voltage curve. The orthogonal SOMOs of the dicobaltocene complexes make them weak or a nonspin filter despite having a high spin ground state.",

author = "Suranjan Shil and Sabyasachi Sen",

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T1 - Cobaltocene-Coupled Cumulene

T2 - A Perspective on Chiral Magnet and Spintronics Device Design

AU - Shil, Suranjan

AU - Sen, Sabyasachi

N1 - Publisher Copyright: ©

PY - 2020/12/7

Y1 - 2020/12/7

N2 - We present a computational study of the magnetic and electronic transport properties of cumulene-based monocobaltocene and dicobaltocene complexes. We show that the odd cumulene-based dicobaltocene complexes are a potential candidate for the ferromagnetic material. The calculation of the zero-field splitting (ZFS) parameter D confirms that the odd cumulene-based dicobaltocene complexes can be used as potential single-molecule magnets. The monocobaltocene-based complexes are found to be a good spin filter, as demonstrated by the calculation of the transmission and current versus voltage curve. The orthogonal SOMOs of the dicobaltocene complexes make them weak or a nonspin filter despite having a high spin ground state.

AB - We present a computational study of the magnetic and electronic transport properties of cumulene-based monocobaltocene and dicobaltocene complexes. We show that the odd cumulene-based dicobaltocene complexes are a potential candidate for the ferromagnetic material. The calculation of the zero-field splitting (ZFS) parameter D confirms that the odd cumulene-based dicobaltocene complexes can be used as potential single-molecule magnets. The monocobaltocene-based complexes are found to be a good spin filter, as demonstrated by the calculation of the transmission and current versus voltage curve. The orthogonal SOMOs of the dicobaltocene complexes make them weak or a nonspin filter despite having a high spin ground state.

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Cobaltocene-Coupled Cumulene: A Perspective on Chiral Magnet and Spintronics Device Design

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