Improved Slow Magnetic Relaxation in Optically Pure Helicene- Based DyIII Single Molecule Magnet

The racemic and optically pure [Dy(hfac)3(L)] complexes with L = 3-(2-pyridyl)-4-aza[6]-helicene have been synthesized and characterized. Both racemic and enantiopure forms behave as single molecule magnets in their crystalline phase, while electronic circular dichroism activity is evidenced. Ab initio calculations on isolated complexes followed by the determination of intermolecular dipolar couplings allowed the rationalization of the different low-temperature magnetic behaviours. The enantiopure SMM differs from the racemic one by the presence of a hysteresis loop in the former system.

Improved Slow Magnetic Relaxation in Optically Pure Helicene- Based DyIII Single Molecule Magnet / Ou-Yang, J.-K.; Saleh, N.; Fernandez Garcia, G.; Norel, L.; Pointillart, F.; Guizouarn, T.; Cador, O.; Totti, F.; Ouahab, L.; Crassous, J.; Le Guennic, B.. - In: CHEMICAL COMMUNICATIONS. - ISSN 1359-7345. - ELETTRONICO. - --:(2016), pp. 0-0. [10.1039/C6CC08638A]

Improved Slow Magnetic Relaxation in Optically Pure Helicene- Based DyIII Single Molecule Magnet

Ou Yang, J. K.;Saleh, N.;FERNANDEZ GARCIA, GUGLIELMO;Norel, L.;Pointillart, F.;Guizouarn, T.;Cador, O.;TOTTI, FEDERICO^Supervision;Ouahab, L.;Crassous, J.;Le Guennic, B.

2016

Abstract

The racemic and optically pure [Dy(hfac)3(L)] complexes with L = 3-(2-pyridyl)-4-aza[6]-helicene have been synthesized and characterized. Both racemic and enantiopure forms behave as single molecule magnets in their crystalline phase, while electronic circular dichroism activity is evidenced. Ab initio calculations on isolated complexes followed by the determination of intermolecular dipolar couplings allowed the rationalization of the different low-temperature magnetic behaviours. The enantiopure SMM differs from the racemic one by the presence of a hysteresis loop in the former system.

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	Data di pubblicazione
	
			2016
		
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			CHEMICAL COMMUNICATIONS
		
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			Ou-Yang, J.-K.; Saleh, N.; Fernandez Garcia, G.; Norel, L.; Pointillart, F.; Guizouarn, T.; Cador, O.; Totti, F.; Ouahab, L.; Crassous, J.; Le Guennic, B.
		
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1064750

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