Search
Search Results
-
-
Ion–Atom Charge Transfer Reactions at Low Energies
In this chapter, we review the over-the-barrier, Langevin-orbiting, Landau–Zener–Rosen, and molecular orbital close-coupling (MOCC), models used in...
-
Charge transfer driving interfacial reconstructions in perovskite oxide heterostructures
Charge transfer in perovskite oxide heterostructures could break the delicate balance among charge, spin, orbital and lattice order at the interface,...
-
Charge Transfer in the Vertical Structures Formed by Two-Dimensional Layers
AbstractElectronic structures of superlattices and encapsulated layers are obtained by Green’s function metho d. The simple scheme for estimation of...
-
Mechanism of Transverse Charge Transfer in Thin Films of Hexagonal Boron Nitride
AbstractA mechanism of transverse charge transfer through hexagonal boron nitride (h-BN) in a MIS structure has been studied. Experimental data for...
-
Geometrical control of topological charge transfer in Shakti-Cairo colloidal ice
Lattice transformations that preserve the system topology, but not its geometry, are common in condensed matter systems. However, how geometric...
-
Charge transfer between rotating complex scalar fields
We consider the transfer of a U(1) charge density between Bose-Einstein condensates of complex scalar fields coupled to a thermal bath, focusing on...
-
Effect of ground state charge transfer and photoinduced charge separation on the energy level alignment at metal halide perovskite/organic charge transport layer interfaces
One of the most promising routes for the future fabrication of solution-processable high-performance solar cells is to employ metal halide...
-
Charge Transfer in Rare-Earth-Doped Inorganic Materials
Luminescence is an interesting phenomenon in which the emission of light is observed due to cold-body radiation. This phenomenon can be caused by...
-
Charge transfer and spin-valley locking in 4Hb-TaS2
4Hb-TaS 2 is a superconductor that exhibits unique characteristics such as time-reversal symmetry breaking, hidden magnetic memory, and topological...
-
Insight on charge-transfer regimes in electron-phonon coupled molecular systems via numerically exact simulations
Various simulation approaches exist to describe charge transport in organic solids, offering significantly different descriptions of the physics of...
-
Hole do** in a negative charge transfer insulator
R E NiO 3 is a negative charge transfer energy system and exhibits a temperature-driven metal-insulator transition (MIT), which is also accompanied by a...
-
Research on multi-color OLED with bi-directional charge transfer using Ag: Mg as intermediate electrode
Organic light-emitting devices (OLEDs) have received widespread attention due to their excellent luminescence performance and flexibility. In this...
-
Charge-Transfer Plasmon Resonance in a Dimer of Gold Nanoparticles Connected with a Carbon Nanotube
The scattering problem for a dimer consisting of a carbon nanotube (CNT) coated with a thick gold layer everywhere except for a narrow central region...
-
Intervalence charge transfer of Cr3+-Cr3+ aggregation for NIR-II luminescence
The increasing demand for high-contrast biological imaging, non-destructive testing, and infrared night vision can be addressed by the development of...
-
Charge transfer plasmon resonances of conductively linked asymmetric gold nanoparticle dimers
Understanding a direct transfer of charges in bridged conductive nanodimers is a central research problem relevant for numerous applications...
-
-
Interparticle Charge Transport Enhances Electrochemiluminescence of Quantum Dots
Quantum dots (QD) have been gaining popularity within the field of biomedical diagnostics research because of their unique electrochemiluminescence...
-
Charge-Transfer Complexes of Linear and Ladder-Type Conjugated Polymers as Promising Organic Narrow-Gap Semiconductors
AbstractCharge-transfer complexes (CTCs) of small π-conjugated organic molecules have been studied for a long time as organic semiconductors and...
-
Infrared Light-Induced Charge Transfer of Prussian Blue Analogs K0.4Co1.3[Fe(CN)6]·nH2O
In this paper, we irradiated K 0.4 Co 1.3 [Fe(CN) 6 ]·nH 2 O with infrared light ([KCoFePBA] IIP ) during the preparation process and compared them with normal...
