Room temperature control of spin states in a thin film of a photochromic iron(ii) complex

Thin films of a molecular spin crossover iron(II) complex featuring a photochromic diarylethene-based ligand have been grown by sublimation in ultra-high vacuum on an Au(111) single crystal, and investigated by X-ray and UV photoelectron spectroscopies. Temperature-dependent studies demonstrate that the thermally induced spin crossover behaviour is preserved in thin films. The photochromic ligand deliberately integrated into the complex allows photoswitching of the spin states of this iron(II) complex at room temperature, and this photomagnetic effect is still observed in 5 nm thick sublimated films. Thus, this work opens new horizons and pushes bistable spin crossover systems closer to prospective applications in molecular electronics and molecular spintronics devices functioning at room temperature.

Room temperature control of spin states in a thin film of a photochromic iron(ii) complex / Poggini, Lorenzo; Milek, Magdalena; Londi, Giacomo; Naim, Ahmad; Poneti, Giordano; Squillantini, Lorenzo; Magnani, Agnese; Totti, Federico; Rosa, Patrick; Khusniyarov, Marat M.; Mannini, Matteo. - In: MATERIALS HORIZONS. - ISSN 2051-6347. - ELETTRONICO. - 5:(2018), pp. 506-513. [10.1039/C7MH01042G]

Room temperature control of spin states in a thin film of a photochromic iron(ii) complex

Poggini, Lorenzo^{Investigation};Londi, Giacomo^{Investigation};Poneti, Giordano^{Membro del Collaboration Group};SQUILLANTINI, LORENZO^Validation;Totti, Federico^Supervision;Mannini, Matteo^Supervision

2018

Abstract

Thin films of a molecular spin crossover iron(II) complex featuring a photochromic diarylethene-based ligand have been grown by sublimation in ultra-high vacuum on an Au(111) single crystal, and investigated by X-ray and UV photoelectron spectroscopies. Temperature-dependent studies demonstrate that the thermally induced spin crossover behaviour is preserved in thin films. The photochromic ligand deliberately integrated into the complex allows photoswitching of the spin states of this iron(II) complex at room temperature, and this photomagnetic effect is still observed in 5 nm thick sublimated films. Thus, this work opens new horizons and pushes bistable spin crossover systems closer to prospective applications in molecular electronics and molecular spintronics devices functioning at room temperature.

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	Data di pubblicazione
	
				2018
			
	Rivista
	
				MATERIALS HORIZONS
			
	Volume
	
				5
			
	Pagina iniziale
	
				506
			
	Pagina finale
	
				513
			
	Codice ONU Sustainable Development Goals (SDG)
	
				Goal 9: Industry, Innovation, and Infrastructure
			
	Tutti gli autori
	
						Poggini, Lorenzo; Milek, Magdalena; Londi, Giacomo; Naim, Ahmad; Poneti, Giordano; Squillantini, Lorenzo; Magnani, Agnese; Totti, Federico; Rosa, Patr...espandi
						
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1123084

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