Molecular Functionalization and Emergence of Long-Range Spin-Dependent Phenomena in Two-Dimensional Carbon Nanotube Networks

Molecular functionalization of CNTs is a routine procedure in the field of nanotechnology. However, whether and how these molecules affect the spin polarization of the charge carriers in CNTs are largely unknown. In this work we demonstrate that spin polarization can indeed be induced in two-dimensi...

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Bibliographic Details
Published in:ACS nano 2021-12, Vol.15 (12), p.20056-20066
Main Authors: Rahman, Md. Wazedur, Mañas-Torres, Mari C, Firouzeh, Seyedamin, Cuerva, Juan Manuel, Álvarez de Cienfuegos, Luis, Pramanik, Sandipan
Format: Article
Language:English
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Summary:Molecular functionalization of CNTs is a routine procedure in the field of nanotechnology. However, whether and how these molecules affect the spin polarization of the charge carriers in CNTs are largely unknown. In this work we demonstrate that spin polarization can indeed be induced in two-dimensional (2D) CNT networks by “certain” molecules and the spin signal routinely survives length scales significantly exceeding 1 μm. This result effectively connects the area of molecular spintronics with that of carbon-based 2D nanoelectronics. By using the versatility of peptide chemistry, we further demonstrate how spin polarization depends on molecular structural features such as chirality as well as molecule–nanotube interactions. A chirality-independent effect was detected in addition to the more common chirality-dependent effect, and the overall spin signal was found to be a combination of both. Finally, the magnetic field dependence of the spin signals has been explored, and the “chirality-dependent” signal has been found to exist only in certain field angles.
ISSN:1936-0851
1936-086X
DOI:10.1021/acsnano.1c07739