A Monte Carlo investigation of the magnetic behaviors and magnetocaloric effect of the nanoporous graphenes of a mixed spin ferrimagnetic (2, 3/2)

“…[32][33][34][35] Additionally, studying the magnetic behaviors of graphene-like and hexagonal boron nitride lattices further expand our understanding of magnetic phenomena at the nanoscale. 36 Through methods like ab initio calculations, Monte Carlo simulations, and density functional theory, research has looked into exploring the magnetic properties and potential applications of various materials, including Ising nanowires, 37 double perovskites, 38,39 Heusler alloys, [40][41][42][43] and other structures, [44][45][46][47][48][49][50][51][52] covering a wide range of topics, such as dynamic phase transitions, electronic and magnetic properties, the magnetocaloric effect, structural changes in order to deepen our comprehension of these materials and provide new possibilities for their use in technology, such as in magnetic devices, spintronics, magnetic refrigerants, and even in energy storage as Li-ion battery materials.…”

Investigation of the Magnetic Features of the Fullerene-Dimer-Like Nanostructure (C ₆₀)₂: A Monte Carlo Study

“…[32][33][34][35] Additionally, studying the magnetic behaviors of graphene-like and hexagonal boron nitride lattices further expand our understanding of magnetic phenomena at the nanoscale. 36 Through methods like ab initio calculations, Monte Carlo simulations, and density functional theory, research has looked into exploring the magnetic properties and potential applications of various materials, including Ising nanowires, 37 double perovskites, 38,39 Heusler alloys, [40][41][42][43] and other structures, [44][45][46][47][48][49][50][51][52] covering a wide range of topics, such as dynamic phase transitions, electronic and magnetic properties, the magnetocaloric effect, structural changes in order to deepen our comprehension of these materials and provide new possibilities for their use in technology, such as in magnetic devices, spintronics, magnetic refrigerants, and even in energy storage as Li-ion battery materials.…”

Investigation of the Magnetic Features of the Fullerene-Dimer-Like Nanostructure (C ₆₀)₂: A Monte Carlo Study

Monte Carlo study of the magnetic and magnetocaloric properties of an edge-decorated graphene-like nanoparticle