Seyedamin Firouzeh

TL;DR: DNA-CNT spin filters in which CNTs have been functionalized with two different classes of sequences, exhibiting different degrees of interaction with CNT, raise the intriguing possibility of engineering charge transport in nanotubes via CISS-induced spin polarization by tailor-made DNA sequences.

TL;DR: Heterochiral carbon-nanotube-short-peptide materials made by the combination of two different chiral sources are developed, showing that the presence of a small amount of glucono-δ-lactone with fixed chirality can alter the supramolecular chiralities of the medium, thereby modulating the sign of the spin signal from "up" to "down" and vice versa.

TL;DR: In this article, the authors investigated the effect of helical functionalization of carbon nanotubes using DNA strands on the magnetoresistance effect of spin selectivity and found that the conduction mechanism was in the strongly localized regime due to DNA functionalization, with the observed magnetoresence originating from the interference effects between the forward and backward hopping paths.

TL;DR: In this article , the authors investigated CPP MR in 1T-VSe2 ultrathin flakes, revealing a large (∼60% −70%) positive, linear, and non saturating CPPMR in a relatively small magnetic field range of ±12 kG.

TL;DR: In this paper , the role of nanotube spin-orbit coupling on the observed pure CISS signal was studied by systematically varying the diameter of the carbon nanotubes, and it was shown that the magnitude of the Ciss signal scales proportionately with the spinorbit coupling strength.