Recent innovations in 2D magnetic materials and their potential applications in the modern era
In recent years, enormous efforts have been made to identify and manipulate the exotic
electrical and magnetic properties at a two-dimensional (2D) limit of various exciting …
electrical and magnetic properties at a two-dimensional (2D) limit of various exciting …
Emerging two-dimensional ferromagnetic semiconductors
D Kong, C Zhu, C Zhao, J Liu, P Wang… - Chemical Society …, 2024 - pubs.rsc.org
Two-dimensional (2D) semiconductors have attracted considerable attention for their
potential in extending Moore's law and advancing next-generation electronic devices …
potential in extending Moore's law and advancing next-generation electronic devices …
Twist-assisted optoelectronic phase control in two-dimensional (2D) Janus heterostructures
Atomically thin two-dimensional (2D) Janus materials and their Van der Waals
heterostructures (vdWHs) have emerged as a new class of intriguing semiconductor …
heterostructures (vdWHs) have emerged as a new class of intriguing semiconductor …
Strain-controlled spin transport in a two-dimensional (2D) nanomagnet
Semiconductors with controllable electronic transport coupled with magnetic behaviour,
offering programmable spin arrangements present enticing potential for next generation …
offering programmable spin arrangements present enticing potential for next generation …
Magnetic phase transitions and magnetoelastic coupling in a two-dimensional stripy antiferromagnet
Materials with a quasi-one-dimensional stripy magnetic order often exhibit low crystal and
magnetic symmetries, thus allowing the presence of various energy coupling terms and …
magnetic symmetries, thus allowing the presence of various energy coupling terms and …
Spin‐Lattice Coupled Metamagnetism in Frustrated van der Waals Magnet CrOCl
The long‐range magnetic ordering in frustrated magnetic systems is stabilized by coupling
magnetic moments to various degrees of freedom, for example, by enhancing magnetic …
magnetic moments to various degrees of freedom, for example, by enhancing magnetic …
A first-principles study on the electronic property and magnetic anisotropy of ferromagnetic CrOF and CrOCl monolayers
C Xu, J Zhang, Z Guo, S Zhang, X Yuan… - Journal of Physics …, 2021 - iopscience.iop.org
Two-dimensional ferromagnetic materials with large perpendicular magnetic anisotropy
(PMA) hold great potential in realizing low critical switching current, high thermal stability …
(PMA) hold great potential in realizing low critical switching current, high thermal stability …
Promising cathode material MnO2/CoO2 heterostructure for the Li and Na ion battery: A computational study
S Sahoo, P Kumari, S Jyoti Ray - Journal of Applied Physics, 2023 - pubs.aip.org
Although two-dimensional (2D) transition metal oxide monolayers have shown potential for
applications in metal-ion batteries, the heterostructures of this family are yet to be studied in …
applications in metal-ion batteries, the heterostructures of this family are yet to be studied in …
Tuning the adsorption and diffusion capabilities of titanium disulfide monolayers by do** and strain engineering: Implications for lithium-ion batteries
Do** and strain engineering are effective tuning approaches for improving the
electrochemical performance of materials in batteries and catalytic applications. This work …
electrochemical performance of materials in batteries and catalytic applications. This work …
Magnetic ground state of CrOCl: A first-principles study
By first-principles calculations, this paper reveals that the antiferromagnetic (AFM) ground
state of CrOCl with an orthorhombic structure observed in experiment is mainly due to the …
state of CrOCl with an orthorhombic structure observed in experiment is mainly due to the …