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Spin density wave and superconducting properties of nanoparticle organic conductor assemblies

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Author

Winter, Laurel E.

Steven, Eden

Brooks, James S.

Benjamin, Shermane

Park, Ju-Hyun.

De Caro, Dominique

Faulmann, Christophe

Valade, Lydie

Jacob, Kane

Chtioui, Imane

Ballesteros, Belén

Fraxedas, Jordi

Publication date

2015

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Abstract

The magnetic susceptibilities of nanoparticle assemblies of two Bechgaard salts (TMTSF)2PF6 and (TMTSF)2ClO4, have been studied vs temperature and magnetic field. In the bulk these materials exhibit a spin density wave formation (TSDW=12K) and superconductivity (Tc=1.2K), respectively. We show from inductive (susceptibility) measurements that the nanoparticle assemblies exhibit ground-state phase transitions similar to those of randomly oriented polycrystalline samples of the parent materials. Resistivity and diamagnetic shielding measurements yield additional information on the functional nanoparticle structure in terms of stoichiometric and nonstoichiometric composition.

Document Type

Article

Language

English

Publisher

 

Related items

Physical review B : Condensed matter and materials physics ; Vol. 91, issue 3 (Jan. 2015), art. 35437

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open access

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Articles escrits per personal UAB o publicats per la universitat [88076]