The Chirality Induced Spin Selectivity (CISS) effect describes the capability of chiral molecules to act as spin filters discriminating flowing electrons according to their spin state. Within molecular spintronics, efforts are focused on developing chiral-molecule-based technologies to control the injection and coherence of spin-polarized currents. Herein, for this purpose, we study spin selectivity properties of a monolayer of a thioalkyl derivative of a thia-bridged triarylamine hetero[4]helicene chemisorbed on a gold surface. A stacked device assembled by embedding a monolayer of these molecules between ferromagnetic and diamagnetic electrodes exhibits asymmetric magnetoresistance with inversion of the signal according to the handedness of molecules, in line with the presence of the CISS effect. In addition, magnetically conductive atomic force microscopy reveals efficient electron spin filtering even at unusually low potentials. Our results demonstrate that thia[4]heterohelicenes represent key candidates for the development of chiral spintronic devices.
Efficient spin-selective electron transport at low voltages of thia-bridged triarylamine hetero[4]helicenes chemisorbed monolayer / Niccolo Giaconi, Lorenzo Poggini, Michela Lupi, Matteo Briganti,, Andrea L. Sorrentino, Caterina Viglianisi, Stefano Menichetti, Roberta Sessoli, Matteo Mannini. - In: ACS NANO. - ISSN 1936-0851. - ELETTRONICO. - 17:(2023), pp. 0-0. [10.1021/acsnano.3c04878]
Efficient spin-selective electron transport at low voltages of thia-bridged triarylamine hetero[4]helicenes chemisorbed monolayer
Niccolo Giaconi;Michela Lupi;Matteo Briganti;Andrea L. Sorrentino;Caterina Viglianisi;Stefano Menichetti;Roberta Sessoli;Matteo Mannini
2023
Abstract
The Chirality Induced Spin Selectivity (CISS) effect describes the capability of chiral molecules to act as spin filters discriminating flowing electrons according to their spin state. Within molecular spintronics, efforts are focused on developing chiral-molecule-based technologies to control the injection and coherence of spin-polarized currents. Herein, for this purpose, we study spin selectivity properties of a monolayer of a thioalkyl derivative of a thia-bridged triarylamine hetero[4]helicene chemisorbed on a gold surface. A stacked device assembled by embedding a monolayer of these molecules between ferromagnetic and diamagnetic electrodes exhibits asymmetric magnetoresistance with inversion of the signal according to the handedness of molecules, in line with the presence of the CISS effect. In addition, magnetically conductive atomic force microscopy reveals efficient electron spin filtering even at unusually low potentials. Our results demonstrate that thia[4]heterohelicenes represent key candidates for the development of chiral spintronic devices.
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