Two‐Dimensional Metal‐Organic Frameworks Towards Spintronics
X Yan, X Su, J Chen, C Jin, L Chen - Angewandte Chemie, 2023 - Wiley Online Library
The intrinsic properties of predesignable topologies and tunable electronic structures,
coupled with the increase of electrical conductivity, make two‐dimensional metal–organic …
coupled with the increase of electrical conductivity, make two‐dimensional metal–organic …
Dynamical behavior of pure spin current in organic materials
Growing concentration on the novel information processing technology and low‐cost,
flexible materials make the spintronics and organic materials appealing for the future …
flexible materials make the spintronics and organic materials appealing for the future …
Quintuple function integration in two-dimensional Cr (II) five-membered heterocyclic metal organic frameworks via tuning ligand spin and lattice symmetry
Two-dimensional (2D) semiconductors (SCs) integrated with two or more functions are the
cornerstone for constructing multifunctional nanodevices but remain largely limited. Here, by …
cornerstone for constructing multifunctional nanodevices but remain largely limited. Here, by …
Chemically Controlled Reversible Magnetic Phase Transition in Two-Dimensional Organometallic Lattices
Developing an efficient method to reversibly control materials' spin order is urgently needed
but challenging in spintronics. Though various physical field control methods have been …
but challenging in spintronics. Though various physical field control methods have been …
Synergistic spin–valence catalysis mechanism in oxygen reduction reactions on Fe–N–C single-atom catalysts
The spin and valence states of active sites play a direct and crucial role in the activity of
transition-metal-based catalysts. However, modulating the spin and valence states based on …
transition-metal-based catalysts. However, modulating the spin and valence states based on …
Pressure-controlled magnetism in 2D molecular layers
Long-range magnetic ordering of two-dimensional crystals can be sensitive to interlayer
coupling, enabling the effective control of interlayer magnetism towards voltage switching …
coupling, enabling the effective control of interlayer magnetism towards voltage switching …
Chemical tuning meets 2D molecular magnets
Abstract 2D magnets provoke a surge of interest in large anisotropy in reduced dimensions
and are promising for next‐generation information technology where dynamic magnetic …
and are promising for next‐generation information technology where dynamic magnetic …
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 …
Ultrathin organic polymer with p-π conjugated structure for simultaneous photocatalytic disulfide bond generation and CO2 reduction
L Hou, Z Tang, G Mao, S Yin, B Long, T Ouyang… - Journal of Energy …, 2023 - Elsevier
Combining photocatalytic organic reactions with CO 2 reduction is an efficient solar energy
utilization mode, but it is still limited by the organic species that can be matched and the low …
utilization mode, but it is still limited by the organic species that can be matched and the low …
Unravelling abnormal in-plane stretchability of two-dimensional metal–organic frameworks by machine learning potential molecular dynamics
Two-dimensional (2D) metal–organic frameworks (MOFs) hold immense potential for
various applications due to their distinctive intrinsic properties compared to their 3D …
various applications due to their distinctive intrinsic properties compared to their 3D …