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Literature DB >> 27271347

Enhancing magnetoresistance in tetrathiafulvalene carboxylate modified iron oxide nanoparticle assemblies.

Zhong-Peng Lv¹, Zhong-Zhi Luan², Pei-Yu Cai¹, Tao Wang¹, Cheng-Hui Li¹, Di Wu², Jing-Lin Zuo¹, Shouheng Sun³.

Abstract

We report a facile approach to stabilize Fe3O4 nanoparticles (NPs) by using tetrathiafulvalene carboxylate (TTF-COO(-)) and to control electron transport with an enhanced magnetoresistance (MR) effect in TTF-COO-Fe3O4 NP assemblies. This TTF-COO-coating is advantageous over other conventional organic coatings, making it possible to develop stable Fe3O4 NP arrays for sensitive spintronics applications.

Entities: Chemical Gene

Year: 2016 PMID： 27271347 DOI： 10.1039/c6nr03311c

Source DB: PubMed Journal: Nanoscale ISSN： 2040-3364 Impact factor: 7.790

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Cited

2 in total

1. Size-Tunable Magnetite Nanoparticles from Well-Defined Iron Oleate Precursors.

Authors: Kyle M Kirkpatrick; Benjamin H Zhou; Philip C Bunting; Jeffrey D Rinehart
Journal: Chem Mater Date: 2022-08-16 Impact factor: 10.508

2. A Size Threshold for Enhanced Magnetoresistance in Colloidally Prepared CoFe₂O₄ Nanoparticle Solids.

Authors: Benjamin H Zhou; Jeffrey D Rinehart
Journal: ACS Cent Sci Date: 2018-08-22 Impact factor: 14.553

2 in total

Enhancing magnetoresistance in tetrathiafulvalene carboxylate modified iron oxide nanoparticle assemblies.

1. Size-Tunable Magnetite Nanoparticles from Well-Defined Iron Oleate Precursors.

2. A Size Threshold for Enhanced Magnetoresistance in Colloidally Prepared CoFe2O4 Nanoparticle Solids.

2. A Size Threshold for Enhanced Magnetoresistance in Colloidally Prepared CoFe₂O₄ Nanoparticle Solids.