Properties and applications of quantum dots derived from two-dimensional materials
Quantum dots based on two-dimensional materials (2D-QDs) have received significant
attention due to their exceptional physical, chemical, and biological properties. They have …
attention due to their exceptional physical, chemical, and biological properties. They have …
Magnetic topological materials in two-dimensional: theory, material realization and application prospects
Abstract Two-dimensional (2D) magnetism and nontrivial band topology are both areas of
research that are currently receiving significant attention in the study of 2D materials …
research that are currently receiving significant attention in the study of 2D materials …
Effects of Al/Si ratio and crystallite size on the dissolution rate of aluminosilicate glass and low-calcium SCMs under alkaline condition
The dissolution of supplementary cementitious materials (SCMs) can significantly affect
pozzolanic reactions in cement systems. The long-term dissolution of synthesised …
pozzolanic reactions in cement systems. The long-term dissolution of synthesised …
Enhanced Direct Exchange Interaction and Hybridization by Single-Atom Linkers for High Curie Temperature and Superior Visible-Light Harvesting in Cr3(CN3)2
Designing two-dimensional (2D) ferromagnetic (FM) semiconductors with elevated Curie
temperature, high carrier mobility, and strong light harvesting is challenging but crucial to the …
temperature, high carrier mobility, and strong light harvesting is challenging but crucial to the …
Enhancing Magnetic Ordering in Two-Dimensional Metal–Organic Frameworks via Frontier Molecular Orbital Engineering
Two-dimensional (2D) metal–organic frameworks (MOFs) have promise for use in
lightweight permanent magnets in contrast to inorganic solid-or molecule-based magnets …
lightweight permanent magnets in contrast to inorganic solid-or molecule-based magnets …
Two-dimensional ferromagnetic semiconductors of monolayer BiXO 3 (X= Ru, Os) with direct band gaps, high Curie temperatures, and large magnetic anisotropy
Two-dimensional (2D) ferromagnetic semiconductors are highly promising candidates for
spintronics, but are rarely reported with direct band gaps, high Curie temperatures (Tc), and …
spintronics, but are rarely reported with direct band gaps, high Curie temperatures (Tc), and …
Low-rank approximations for accelerating plane-wave hybrid functional calculations in unrestricted and noncollinear spin density functional theory
The adaptively compressed exchange (ACE) operator combined with interpolative
separable density fitting (ISDF) decomposition has been utilized to accelerate plane-wave …
separable density fitting (ISDF) decomposition has been utilized to accelerate plane-wave …
Olympicene radicals as building blocks of two-dimensional anisotropic networks
R Ortiz - Physical Review B, 2023 - APS
I propose monoradical nanographenes without C 3 symmetry as building blocks to design
two-dimensional carbon crystals. As representative examples I study the honeycomb and …
two-dimensional carbon crystals. As representative examples I study the honeycomb and …
Phase transition from a nonmagnetic to a ferromagnetic state in a twisted bilayer graphene nanoflake: The role of electronic pressure on the magic-twist
The electronic properties of a bilayer graphene nanoflake (BLGNF) depend sensitively upon
the strength of the inter-layer electronic coupling (IEC) energy. Upon tuning the IEC via …
the strength of the inter-layer electronic coupling (IEC) energy. Upon tuning the IEC via …
Double-Weyl fermions in two-dimensional ferromagnetic materials
C Li, S Zhang, X Zhao, L **, Y Liu, H Li… - Journal of Alloys and …, 2025 - Elsevier
Double-Weyl fermions with quadratic dispersion, as novel topological states of matter, have
attracted a great deal of attention in recent years. However, they are very rare in two …
attracted a great deal of attention in recent years. However, they are very rare in two …