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Stable organic radical stacked by in situ coordination to rare earth cations in MOF materials

Abstract: With the correct choice of the solvothermal conditions, we have achieved the unprecedented in situ formation of the free radical form of the anthraquinone-1,5-disulfonate molecule, and its favorable organization. The semiquinone radicals are coordinated to rare-earth cations to produce a 2D framework with a very high charge mobility and electric conductivity through the ???-interactions. The existence of AQDS3?? anion radicals is proven on the base of: i) the electrical neutrality: elemental analyses for the different lanthanide RPF-8 bulks, the maximum residual electron densities in the structure, rule out the existence of any other neutralizing ion, ii) the geometrical modifications in the antraquinone molecules, and iii) although less definitive, due to the low magnetic moment ? = 0.39 ?B, the exhibited paramagnetism for the La (3+) with no unpaired electrons.

 Authorship: Gándara F., Snejko N., Andrés A.D., Fernandez J.R., Gómez-Sal J.C., Gutierrez-Puebla E., Monge A.,

 Fuente: RSC Advances, 2012, 2(3), 949-955

 Publisher: Royal Society of Chemistry

 Publication date: 01/02/2012

 No. of pages: 7

 Publication type: Article

 DOI: 10.1039/c1ra00447f

 ISSN: 2046-2069

 Publication Url: https://doi.org/10.1039/C1ra0447f

Authorship

GÁNDARA, FELIPE

SNEJKO, NATALIA

ANDRÉS, ALICIA DE

GUTIÉRREZ PUEBLA, ENRIQUE

MONGE, ÁNGELES