Publications by authors named "S Magazu"
The paper introduces a parametric resonance model for characterizing some features of the brain's electrical activity. This activity is assumed to be a fundamental aspect of brain functionality underpinning functions from basic sensory processing to complex cognitive operations such as memory, reasoning, and emotion. A pivotal element of the proposed parametric model is neuron synchronization which is crucial for generating detectable brain waves.
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- Molecular nanoswitches are important in molecular electronics, focusing on the design and synthesis of organic molecules that can switch between states.
- Understanding switching mechanisms involves studying charge transfer, electron movement, and various electrical properties such as current-voltage characteristics.
- The article introduces a new method for designing molecular nanoswitches, utilizing advanced theories like QTAIM, DFT, and Landauer theory to enhance knowledge of their ON/OFF mechanisms and improve molecular electronic systems.
In this work, we use a combination of dispersion-corrected density functional theory (DFT-D3) and the TiberCAD framework for the first time to investigate a newly designed and synthesized class of (CHN)[CuCl] 2D-type perovskite. The inter- and intra-atomic reorganization in the crystal packing and the type of interaction forming in the active area have been discussed via Hirshfeld surface (HS) analyses. A distinct charge transfer from CuCl to [CHN] is identified by frontier molecular orbitals (FMOs) and density of states (DOS).
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