We investigated the ground state of monolayer 1T-XCl 2 (X: Fe, Co, and Ni) using the
generalized Bloch theorem, which can generate ferromagnetic, spiral, and antiferromagnetic …

We applied the generalized Bloch theorem to verify the ground state (most stable state) in
monolayer metal diiodides 1T-XI 2 (X: Fe, Co, and Ni), a family of metal dihalides, using the …

The spin current transmission properties of narrow zigzag graphene nanoribbons (zGNRs)
have been the focus of much computational research, investigating the potential application …

We investigated the dependence of Néel temperature as a critical temperature on the
electric field and hole-electron doping in the antiferromagnetically ordered zigzag graphene …

We investigated the controllable magnetic ground states of 1T metal diiodide MI 2 (M: Fe,
Co, and Ni) monolayers by applying the electric field. To do so, we utilized the generalized …

The spin stiffness of the bilayer zigzag graphene nanoribbon for several configurations was
obtained by means of the total energy difference of the flat spiral formations within the self …

We investigated the emergence of spin spiral ground state induced by the electric field in the
bilayer zigzag graphene nanoribbons for the ferromagnetic edge states. To do that, we …

Some thermoelectric quantities were considered under the spin states, ie, spin-up and spin-
down states, in a single-layer FeCl 2. It covers the Seebeck coefficient, electrical and thermal …

We investigated the contribution of spin-up and spin-down states to the Seebeck coefficient
in single-layer zigzag graphene nanoribbons. Firstly, we performed first-principles …

The Coulomb repulsion was applied in the framework of LDA+U approach and electric field
to find out the electronic properties of a single layer 1T-FeI 2. This calculation relies on the …